Code:
/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / fx / src / WinForms / Managed / System / WinForms / GDI / WindowsGraphicsWrapper.cs / 1305376 / WindowsGraphicsWrapper.cs
//------------------------------------------------------------------------------
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
//-----------------------------------------------------------------------------
namespace System.Windows.Forms
{
using System.Internal;
using System;
using System.Drawing;
using System.Windows.Forms.Internal;
using System.Diagnostics;
using System.Runtime.Versioning;
///
/// This class wrapps a WindowsGraphics and is provided to be able to manipulate WindowsGraphics objects
/// created from a Graphics object in the same way as one created from any other IDeviceContext object,
/// which could be a custom one.
/// This class was designed to help TextRenderer determine how to create the underlying WindowsGraphics.
///
internal sealed class WindowsGraphicsWrapper : IDisposable
{
IDeviceContext idc;
WindowsGraphics wg;
///
/// Constructor that determines how to create the WindowsGraphics, there are three posible cases
/// for the IDeviceContext object type:
/// 1. It is a Graphics object: In this case we need to check the TextFormatFlags to determine whether
/// we need to re-apply some of the Graphics properties to the WindowsGraphics, if so we call
/// WindowsGraphics.FromGraphics passing the corresponding flags. If not, we treat it as a custom
/// IDeviceContext (see below).
/// 2. It is a WindowsGraphics object:
/// In this case we just need to use the wg directly and be careful not to dispose of it since
/// it is owned by the caller.
/// 3. It is a custom IDeviceContext object:
/// In this case we create the WindowsGraphics from the native DC by calling IDeviceContext.GetHdc,
/// on dispose we need to call IDeviceContext.ReleaseHdc.
///
[ResourceExposure(ResourceScope.Process)]
[ResourceConsumption(ResourceScope.Process)]
public WindowsGraphicsWrapper( IDeviceContext idc, TextFormatFlags flags)
{
if( idc is Graphics )
{
ApplyGraphicsProperties properties = ApplyGraphicsProperties.None;
if( (flags & TextFormatFlags.PreserveGraphicsClipping) != 0)
{
properties |= ApplyGraphicsProperties.Clipping;
}
if( (flags & TextFormatFlags.PreserveGraphicsTranslateTransform) != 0)
{
properties |= ApplyGraphicsProperties.TranslateTransform;
}
// Create the WindowsGraphics from the Grahpics object only if Graphics properties need
// to be reapplied to the DC wrapped by the WindowsGraphics.
if( properties != ApplyGraphicsProperties.None )
{
this.wg = WindowsGraphics.FromGraphics( idc as Graphics, properties);
}
}
else
{
// If passed-in IDeviceContext object is a WindowsGraphics we can use it directly.
this.wg = idc as WindowsGraphics;
if( this.wg != null )
{
// In this case we cache the idc to compare it against the wg in the Dispose method to avoid
// disposing of the wg.
this.idc = idc;
}
}
if( this.wg == null )
{
// The IDeviceContext object is not a WindowsGraphics, or it is a custom IDeviceContext, or
// it is a Graphics object but we did not need to re-apply Graphics propertiesto the hdc.
// So create the WindowsGraphics from the hdc directly.
// Cache the IDC so the hdc can be released on dispose.
this.idc = idc;
this.wg = WindowsGraphics.FromHdc( idc.GetHdc() );
}
// Set text padding on the WindowsGraphics (if any).
if( (flags & TextFormatFlags.LeftAndRightPadding) != 0 )
{
wg.TextPadding = TextPaddingOptions.LeftAndRightPadding;
}
else if ((flags & TextFormatFlags.NoPadding) != 0 )
{
wg.TextPadding = TextPaddingOptions.NoPadding;
}
// else wg.TextPadding = TextPaddingOptions.GlyphOverhangPadding - the default value.
}
public WindowsGraphics WindowsGraphics
{
get
{
Debug.Assert( this.wg != null, "WindowsGraphics is null." );
return this.wg;
}
}
~WindowsGraphicsWrapper()
{
Dispose(false);
}
public void Dispose()
{
Dispose(true);
GC.SuppressFinalize(this);
}
public void Dispose( bool disposing )
{
Debug.Assert( disposing, "We should always dispose of this guy and not let GC do it for us!" );
if( this.wg != null )
{
// We need to dispose of the WindowsGraphics if it is created by this class only, if the IDeviceContext is
// a WindowsGraphics object we must not dispose of it since it is owned by the caller.
if( this.wg != this.idc )
{
// resets the hdc and disposes of the internal Graphics (if inititialized from one) which releases the hdc.
this.wg.Dispose();
if( this.idc != null ) // not initialized from a Graphics idc.
{
this.idc.ReleaseHdc();
}
}
this.idc = null;
this.wg = null;
}
}
}
}
// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
//------------------------------------------------------------------------------
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
//-----------------------------------------------------------------------------
namespace System.Windows.Forms
{
using System.Internal;
using System;
using System.Drawing;
using System.Windows.Forms.Internal;
using System.Diagnostics;
using System.Runtime.Versioning;
///
/// This class wrapps a WindowsGraphics and is provided to be able to manipulate WindowsGraphics objects
/// created from a Graphics object in the same way as one created from any other IDeviceContext object,
/// which could be a custom one.
/// This class was designed to help TextRenderer determine how to create the underlying WindowsGraphics.
///
internal sealed class WindowsGraphicsWrapper : IDisposable
{
IDeviceContext idc;
WindowsGraphics wg;
///
/// Constructor that determines how to create the WindowsGraphics, there are three posible cases
/// for the IDeviceContext object type:
/// 1. It is a Graphics object: In this case we need to check the TextFormatFlags to determine whether
/// we need to re-apply some of the Graphics properties to the WindowsGraphics, if so we call
/// WindowsGraphics.FromGraphics passing the corresponding flags. If not, we treat it as a custom
/// IDeviceContext (see below).
/// 2. It is a WindowsGraphics object:
/// In this case we just need to use the wg directly and be careful not to dispose of it since
/// it is owned by the caller.
/// 3. It is a custom IDeviceContext object:
/// In this case we create the WindowsGraphics from the native DC by calling IDeviceContext.GetHdc,
/// on dispose we need to call IDeviceContext.ReleaseHdc.
///
[ResourceExposure(ResourceScope.Process)]
[ResourceConsumption(ResourceScope.Process)]
public WindowsGraphicsWrapper( IDeviceContext idc, TextFormatFlags flags)
{
if( idc is Graphics )
{
ApplyGraphicsProperties properties = ApplyGraphicsProperties.None;
if( (flags & TextFormatFlags.PreserveGraphicsClipping) != 0)
{
properties |= ApplyGraphicsProperties.Clipping;
}
if( (flags & TextFormatFlags.PreserveGraphicsTranslateTransform) != 0)
{
properties |= ApplyGraphicsProperties.TranslateTransform;
}
// Create the WindowsGraphics from the Grahpics object only if Graphics properties need
// to be reapplied to the DC wrapped by the WindowsGraphics.
if( properties != ApplyGraphicsProperties.None )
{
this.wg = WindowsGraphics.FromGraphics( idc as Graphics, properties);
}
}
else
{
// If passed-in IDeviceContext object is a WindowsGraphics we can use it directly.
this.wg = idc as WindowsGraphics;
if( this.wg != null )
{
// In this case we cache the idc to compare it against the wg in the Dispose method to avoid
// disposing of the wg.
this.idc = idc;
}
}
if( this.wg == null )
{
// The IDeviceContext object is not a WindowsGraphics, or it is a custom IDeviceContext, or
// it is a Graphics object but we did not need to re-apply Graphics propertiesto the hdc.
// So create the WindowsGraphics from the hdc directly.
// Cache the IDC so the hdc can be released on dispose.
this.idc = idc;
this.wg = WindowsGraphics.FromHdc( idc.GetHdc() );
}
// Set text padding on the WindowsGraphics (if any).
if( (flags & TextFormatFlags.LeftAndRightPadding) != 0 )
{
wg.TextPadding = TextPaddingOptions.LeftAndRightPadding;
}
else if ((flags & TextFormatFlags.NoPadding) != 0 )
{
wg.TextPadding = TextPaddingOptions.NoPadding;
}
// else wg.TextPadding = TextPaddingOptions.GlyphOverhangPadding - the default value.
}
public WindowsGraphics WindowsGraphics
{
get
{
Debug.Assert( this.wg != null, "WindowsGraphics is null." );
return this.wg;
}
}
~WindowsGraphicsWrapper()
{
Dispose(false);
}
public void Dispose()
{
Dispose(true);
GC.SuppressFinalize(this);
}
public void Dispose( bool disposing )
{
Debug.Assert( disposing, "We should always dispose of this guy and not let GC do it for us!" );
if( this.wg != null )
{
// We need to dispose of the WindowsGraphics if it is created by this class only, if the IDeviceContext is
// a WindowsGraphics object we must not dispose of it since it is owned by the caller.
if( this.wg != this.idc )
{
// resets the hdc and disposes of the internal Graphics (if inititialized from one) which releases the hdc.
this.wg.Dispose();
if( this.idc != null ) // not initialized from a Graphics idc.
{
this.idc.ReleaseHdc();
}
}
this.idc = null;
this.wg = null;
}
}
}
}
// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
Link Menu
This book is available now!
Buy at Amazon US or
Buy at Amazon UK
- RoleGroup.cs
- SHA384Managed.cs
- CodeVariableDeclarationStatement.cs
- FormClosedEvent.cs
- Lock.cs
- IsolatedStorageException.cs
- RootBrowserWindow.cs
- HttpCachePolicyBase.cs
- DecimalConstantAttribute.cs
- CombinedGeometry.cs
- DelegateBodyWriter.cs
- TypeConverterValueSerializer.cs
- XmlSchemaRedefine.cs
- UserNameSecurityTokenAuthenticator.cs
- PrintDocument.cs
- ScriptMethodAttribute.cs
- DisplayMemberTemplateSelector.cs
- PrivateFontCollection.cs
- GradientStopCollection.cs
- FigureParaClient.cs
- SingleSelectRootGridEntry.cs
- PropertyChangedEventArgs.cs
- SslStreamSecurityBindingElement.cs
- RefType.cs
- GeneralTransform.cs
- Metafile.cs
- RuntimeConfig.cs
- InstanceDataCollection.cs
- PermissionSetTriple.cs
- DeleteMemberBinder.cs
- PersistenceProviderFactory.cs
- WebBrowserContainer.cs
- AssemblyBuilder.cs
- TextTreeExtractElementUndoUnit.cs
- HttpResponseWrapper.cs
- StateChangeEvent.cs
- TaiwanLunisolarCalendar.cs
- Mutex.cs
- ConfigXmlElement.cs
- SqlCacheDependency.cs
- DataSourceHelper.cs
- StoreAnnotationsMap.cs
- TextRangeProviderWrapper.cs
- WindowsServiceElement.cs
- TextModifier.cs
- OletxTransactionManager.cs
- Double.cs
- FixedLineResult.cs
- DeferredSelectedIndexReference.cs
- InvalidCastException.cs
- ConsoleKeyInfo.cs
- CorrelationInitializer.cs
- CompositeDataBoundControl.cs
- SourceItem.cs
- SharedRuntimeState.cs
- XmlValidatingReader.cs
- HierarchicalDataBoundControlAdapter.cs
- ZipIOExtraField.cs
- ExpanderAutomationPeer.cs
- Quaternion.cs
- TemplateControlCodeDomTreeGenerator.cs
- ComboBoxItem.cs
- BinaryQueryOperator.cs
- XmlSchemaComplexContentRestriction.cs
- ExpressionBindings.cs
- LinkArea.cs
- DateTimeStorage.cs
- DropShadowEffect.cs
- DeleteMemberBinder.cs
- ProfileEventArgs.cs
- MessageQueueCriteria.cs
- IFlowDocumentViewer.cs
- ISAPIRuntime.cs
- UncommonField.cs
- DrawToolTipEventArgs.cs
- TextSegment.cs
- ValueQuery.cs
- HyperLinkStyle.cs
- DataObjectMethodAttribute.cs
- ConcurrentStack.cs
- SkipQueryOptionExpression.cs
- NameObjectCollectionBase.cs
- ReadWriteSpinLock.cs
- Debug.cs
- InputChannelBinder.cs
- BoundField.cs
- RepeatEnumerable.cs
- PerCallInstanceContextProvider.cs
- StylusPlugin.cs
- TextMarkerSource.cs
- EntitySetRetriever.cs
- TargetControlTypeCache.cs
- SessionPageStateSection.cs
- QuaternionAnimationBase.cs
- WebEventCodes.cs
- Run.cs
- CodeNamespace.cs
- Zone.cs
- CatalogZoneBase.cs
- ArgumentValue.cs