Code:
/ Net / Net / 3.5.50727.3053 / DEVDIV / depot / DevDiv / releases / Orcas / SP / wpf / src / Core / CSharp / System / Windows / Media / Imaging / TransformedBitmap.cs / 1 / TransformedBitmap.cs
//------------------------------------------------------------------------------ // Microsoft Avalon // Copyright (c) Microsoft Corporation. All Rights Reserved. // // File: TransformedBitmap.cs // //----------------------------------------------------------------------------- using System; using System.IO; using System.Collections; using System.Collections.Generic; using System.ComponentModel; using System.ComponentModel.Design.Serialization; using System.Reflection; using MS.Internal; using MS.Win32.PresentationCore; using System.Security; using System.Security.Permissions; using System.Diagnostics; using System.Windows.Media; using System.Globalization; using System.Runtime.InteropServices; using System.Windows.Media.Animation; using System.Windows.Media.Composition; using SR=MS.Internal.PresentationCore.SR; using SRID=MS.Internal.PresentationCore.SRID; namespace System.Windows.Media.Imaging { #region TransformedBitmap ////// TransformedBitmap provides caching functionality for a BitmapSource. /// public sealed partial class TransformedBitmap : Imaging.BitmapSource, ISupportInitialize { ////// TransformedBitmap construtor /// public TransformedBitmap() : base(true) // Use base class virtuals { } ////// Construct a TransformedBitmap with the given newTransform /// /// BitmapSource to apply to the newTransform to /// Transform to apply to the bitmap public TransformedBitmap(BitmapSource source, Transform newTransform) : base(true) // Use base class virtuals { if (source == null) { throw new ArgumentNullException("source"); } if (newTransform == null) { throw new InvalidOperationException(SR.Get(SRID.Image_NoArgument, "Transform")); } if (!CheckTransform(newTransform)) { throw new InvalidOperationException(SR.Get(SRID.Image_OnlyOrthogonal)); } _bitmapInit.BeginInit(); Source = source; Transform = newTransform; _bitmapInit.EndInit(); FinalizeCreation(); } // ISupportInitialize ////// Prepare the bitmap to accept initialize paramters. /// public void BeginInit() { WritePreamble(); _bitmapInit.BeginInit(); } ////// Prepare the bitmap to accept initialize paramters. /// ////// Critical - eventually accesses critical resources /// PublicOK - All inputs verified /// [SecurityCritical ] public void EndInit() { WritePreamble(); _bitmapInit.EndInit(); if (Source == null) { throw new InvalidOperationException(SR.Get(SRID.Image_NoArgument, "Source")); } Transform transform = Transform; if (transform == null) { throw new InvalidOperationException(SR.Get(SRID.Image_NoArgument, "Transform")); } if (!CheckTransform(transform)) { throw new InvalidOperationException(SR.Get(SRID.Image_OnlyOrthogonal)); } FinalizeCreation(); } private void ClonePrequel(TransformedBitmap otherTransformedBitmap) { BeginInit(); } private void ClonePostscript(TransformedBitmap otherTransformedBitmap) { EndInit(); } ////// Check the transformation to see if it's a simple scale and/or rotation and/or flip. /// internal bool CheckTransform(Transform newTransform) { Matrix m = newTransform.Value; bool canHandle = false; if ( (DoubleUtil.IsZero(m.M11) && DoubleUtil.IsZero(m.M22)) || (DoubleUtil.IsZero(m.M12) && DoubleUtil.IsZero(m.M21)) ) { canHandle = true; } return canHandle; } ////// Check the transformation to see if it's a simple scale and/or rotation and/or flip. /// internal void GetParamsFromTransform( Transform newTransform, out double scaleX, out double scaleY, out WICBitmapTransformOptions options) { Matrix m = newTransform.Value; if (DoubleUtil.IsZero(m.M12) && DoubleUtil.IsZero(m.M21)) { scaleX = Math.Abs(m.M11); scaleY = Math.Abs(m.M22); options = WICBitmapTransformOptions.WICBitmapTransformRotate0; if (m.M11 < 0) { options |= WICBitmapTransformOptions.WICBitmapTransformFlipHorizontal; } if (m.M22 < 0) { options |= WICBitmapTransformOptions.WICBitmapTransformFlipVertical; } } else { Debug.Assert(DoubleUtil.IsZero(m.M11) && DoubleUtil.IsZero(m.M22)); scaleX = Math.Abs(m.M12); scaleY = Math.Abs(m.M21); options = WICBitmapTransformOptions.WICBitmapTransformRotate90; if (m.M12 < 0) { options |= WICBitmapTransformOptions.WICBitmapTransformFlipHorizontal; } if (m.M21 >= 0) { options |= WICBitmapTransformOptions.WICBitmapTransformFlipVertical; } } } /// /// Create the unmanaged resources /// ////// Critical - access critical resource /// [SecurityCritical] internal override void FinalizeCreation() { _bitmapInit.EnsureInitializedComplete(); BitmapSourceSafeMILHandle wicTransformer = null; double scaleX, scaleY; WICBitmapTransformOptions options; GetParamsFromTransform(Transform, out scaleX, out scaleY, out options); using (FactoryMaker factoryMaker = new FactoryMaker()) { try { IntPtr wicFactory = factoryMaker.ImagingFactoryPtr; wicTransformer = _source.WicSourceHandle; if (!DoubleUtil.IsOne(scaleX) || !DoubleUtil.IsOne(scaleY)) { uint width = Math.Max(1, (uint)(scaleX * _source.PixelWidth + 0.5)); uint height = Math.Max(1, (uint)(scaleY * _source.PixelHeight + 0.5)); HRESULT.Check(UnsafeNativeMethods.WICImagingFactory.CreateBitmapScaler( wicFactory, out wicTransformer)); lock (_syncObject) { HRESULT.Check(UnsafeNativeMethods.WICBitmapScaler.Initialize( wicTransformer, _source.WicSourceHandle, width, height, WICInterpolationMode.Fant)); } } if (options != WICBitmapTransformOptions.WICBitmapTransformRotate0) { // Rotations are extremely slow if we're pulling from a decoder because we end // up decoding multiple times. Caching the source lets us rotate faster at the cost // of increased memory usage. wicTransformer = CreateCachedBitmap( null, wicTransformer, BitmapCreateOptions.PreservePixelFormat, BitmapCacheOption.Default, _source.Palette); BitmapSourceSafeMILHandle rotator = null; HRESULT.Check(UnsafeNativeMethods.WICImagingFactory.CreateBitmapFlipRotator( wicFactory, out rotator)); lock (_syncObject) { HRESULT.Check(UnsafeNativeMethods.WICBitmapFlipRotator.Initialize( rotator, wicTransformer, options)); } wicTransformer = rotator; } // If we haven't introduced either a scaler or rotator, add a null rotator // so that our WicSourceHandle isn't the same as our Source's. if (options == WICBitmapTransformOptions.WICBitmapTransformRotate0 && DoubleUtil.IsOne(scaleX) && DoubleUtil.IsOne(scaleY)) { HRESULT.Check(UnsafeNativeMethods.WICImagingFactory.CreateBitmapFlipRotator( wicFactory, out wicTransformer)); lock (_syncObject) { HRESULT.Check(UnsafeNativeMethods.WICBitmapFlipRotator.Initialize( wicTransformer, _source.WicSourceHandle, WICBitmapTransformOptions.WICBitmapTransformRotate0)); } } WicSourceHandle = wicTransformer; _isSourceCached = _source.IsSourceCached; } catch { _bitmapInit.Reset(); throw; } } CreationCompleted = true; UpdateCachedSettings(); } ////// Notification on source changing. /// private void SourcePropertyChangedHook(DependencyPropertyChangedEventArgs e) { if (!e.IsASubPropertyChange) { BitmapSource newSource = e.NewValue as BitmapSource; _source = newSource; _syncObject = (newSource != null) ? newSource.SyncObject : _bitmapInit; } } ////// Notification on transform changing. /// private void TransformPropertyChangedHook(DependencyPropertyChangedEventArgs e) { if (!e.IsASubPropertyChange) { _transform = e.NewValue as Transform; } } ////// Coerce Source /// private static object CoerceSource(DependencyObject d, object value) { TransformedBitmap bitmap = (TransformedBitmap)d; if (!bitmap._bitmapInit.IsInInit) { return bitmap._source; } else { return value; } } ////// Coerce Transform /// private static object CoerceTransform(DependencyObject d, object value) { TransformedBitmap bitmap = (TransformedBitmap)d; if (!bitmap._bitmapInit.IsInInit) { return bitmap._transform; } else { return value; } } #region Data Members private BitmapSource _source; private Transform _transform; #endregion } #endregion // TransformedBitmap } // File provided for Reference Use Only by Microsoft Corporation (c) 2007. //------------------------------------------------------------------------------ // Microsoft Avalon // Copyright (c) Microsoft Corporation. All Rights Reserved. // // File: TransformedBitmap.cs // //----------------------------------------------------------------------------- using System; using System.IO; using System.Collections; using System.Collections.Generic; using System.ComponentModel; using System.ComponentModel.Design.Serialization; using System.Reflection; using MS.Internal; using MS.Win32.PresentationCore; using System.Security; using System.Security.Permissions; using System.Diagnostics; using System.Windows.Media; using System.Globalization; using System.Runtime.InteropServices; using System.Windows.Media.Animation; using System.Windows.Media.Composition; using SR=MS.Internal.PresentationCore.SR; using SRID=MS.Internal.PresentationCore.SRID; namespace System.Windows.Media.Imaging { #region TransformedBitmap ////// TransformedBitmap provides caching functionality for a BitmapSource. /// public sealed partial class TransformedBitmap : Imaging.BitmapSource, ISupportInitialize { ////// TransformedBitmap construtor /// public TransformedBitmap() : base(true) // Use base class virtuals { } ////// Construct a TransformedBitmap with the given newTransform /// /// BitmapSource to apply to the newTransform to /// Transform to apply to the bitmap public TransformedBitmap(BitmapSource source, Transform newTransform) : base(true) // Use base class virtuals { if (source == null) { throw new ArgumentNullException("source"); } if (newTransform == null) { throw new InvalidOperationException(SR.Get(SRID.Image_NoArgument, "Transform")); } if (!CheckTransform(newTransform)) { throw new InvalidOperationException(SR.Get(SRID.Image_OnlyOrthogonal)); } _bitmapInit.BeginInit(); Source = source; Transform = newTransform; _bitmapInit.EndInit(); FinalizeCreation(); } // ISupportInitialize ////// Prepare the bitmap to accept initialize paramters. /// public void BeginInit() { WritePreamble(); _bitmapInit.BeginInit(); } ////// Prepare the bitmap to accept initialize paramters. /// ////// Critical - eventually accesses critical resources /// PublicOK - All inputs verified /// [SecurityCritical ] public void EndInit() { WritePreamble(); _bitmapInit.EndInit(); if (Source == null) { throw new InvalidOperationException(SR.Get(SRID.Image_NoArgument, "Source")); } Transform transform = Transform; if (transform == null) { throw new InvalidOperationException(SR.Get(SRID.Image_NoArgument, "Transform")); } if (!CheckTransform(transform)) { throw new InvalidOperationException(SR.Get(SRID.Image_OnlyOrthogonal)); } FinalizeCreation(); } private void ClonePrequel(TransformedBitmap otherTransformedBitmap) { BeginInit(); } private void ClonePostscript(TransformedBitmap otherTransformedBitmap) { EndInit(); } ////// Check the transformation to see if it's a simple scale and/or rotation and/or flip. /// internal bool CheckTransform(Transform newTransform) { Matrix m = newTransform.Value; bool canHandle = false; if ( (DoubleUtil.IsZero(m.M11) && DoubleUtil.IsZero(m.M22)) || (DoubleUtil.IsZero(m.M12) && DoubleUtil.IsZero(m.M21)) ) { canHandle = true; } return canHandle; } ////// Check the transformation to see if it's a simple scale and/or rotation and/or flip. /// internal void GetParamsFromTransform( Transform newTransform, out double scaleX, out double scaleY, out WICBitmapTransformOptions options) { Matrix m = newTransform.Value; if (DoubleUtil.IsZero(m.M12) && DoubleUtil.IsZero(m.M21)) { scaleX = Math.Abs(m.M11); scaleY = Math.Abs(m.M22); options = WICBitmapTransformOptions.WICBitmapTransformRotate0; if (m.M11 < 0) { options |= WICBitmapTransformOptions.WICBitmapTransformFlipHorizontal; } if (m.M22 < 0) { options |= WICBitmapTransformOptions.WICBitmapTransformFlipVertical; } } else { Debug.Assert(DoubleUtil.IsZero(m.M11) && DoubleUtil.IsZero(m.M22)); scaleX = Math.Abs(m.M12); scaleY = Math.Abs(m.M21); options = WICBitmapTransformOptions.WICBitmapTransformRotate90; if (m.M12 < 0) { options |= WICBitmapTransformOptions.WICBitmapTransformFlipHorizontal; } if (m.M21 >= 0) { options |= WICBitmapTransformOptions.WICBitmapTransformFlipVertical; } } } /// /// Create the unmanaged resources /// ////// Critical - access critical resource /// [SecurityCritical] internal override void FinalizeCreation() { _bitmapInit.EnsureInitializedComplete(); BitmapSourceSafeMILHandle wicTransformer = null; double scaleX, scaleY; WICBitmapTransformOptions options; GetParamsFromTransform(Transform, out scaleX, out scaleY, out options); using (FactoryMaker factoryMaker = new FactoryMaker()) { try { IntPtr wicFactory = factoryMaker.ImagingFactoryPtr; wicTransformer = _source.WicSourceHandle; if (!DoubleUtil.IsOne(scaleX) || !DoubleUtil.IsOne(scaleY)) { uint width = Math.Max(1, (uint)(scaleX * _source.PixelWidth + 0.5)); uint height = Math.Max(1, (uint)(scaleY * _source.PixelHeight + 0.5)); HRESULT.Check(UnsafeNativeMethods.WICImagingFactory.CreateBitmapScaler( wicFactory, out wicTransformer)); lock (_syncObject) { HRESULT.Check(UnsafeNativeMethods.WICBitmapScaler.Initialize( wicTransformer, _source.WicSourceHandle, width, height, WICInterpolationMode.Fant)); } } if (options != WICBitmapTransformOptions.WICBitmapTransformRotate0) { // Rotations are extremely slow if we're pulling from a decoder because we end // up decoding multiple times. Caching the source lets us rotate faster at the cost // of increased memory usage. wicTransformer = CreateCachedBitmap( null, wicTransformer, BitmapCreateOptions.PreservePixelFormat, BitmapCacheOption.Default, _source.Palette); BitmapSourceSafeMILHandle rotator = null; HRESULT.Check(UnsafeNativeMethods.WICImagingFactory.CreateBitmapFlipRotator( wicFactory, out rotator)); lock (_syncObject) { HRESULT.Check(UnsafeNativeMethods.WICBitmapFlipRotator.Initialize( rotator, wicTransformer, options)); } wicTransformer = rotator; } // If we haven't introduced either a scaler or rotator, add a null rotator // so that our WicSourceHandle isn't the same as our Source's. if (options == WICBitmapTransformOptions.WICBitmapTransformRotate0 && DoubleUtil.IsOne(scaleX) && DoubleUtil.IsOne(scaleY)) { HRESULT.Check(UnsafeNativeMethods.WICImagingFactory.CreateBitmapFlipRotator( wicFactory, out wicTransformer)); lock (_syncObject) { HRESULT.Check(UnsafeNativeMethods.WICBitmapFlipRotator.Initialize( wicTransformer, _source.WicSourceHandle, WICBitmapTransformOptions.WICBitmapTransformRotate0)); } } WicSourceHandle = wicTransformer; _isSourceCached = _source.IsSourceCached; } catch { _bitmapInit.Reset(); throw; } } CreationCompleted = true; UpdateCachedSettings(); } ////// Notification on source changing. /// private void SourcePropertyChangedHook(DependencyPropertyChangedEventArgs e) { if (!e.IsASubPropertyChange) { BitmapSource newSource = e.NewValue as BitmapSource; _source = newSource; _syncObject = (newSource != null) ? newSource.SyncObject : _bitmapInit; } } ////// Notification on transform changing. /// private void TransformPropertyChangedHook(DependencyPropertyChangedEventArgs e) { if (!e.IsASubPropertyChange) { _transform = e.NewValue as Transform; } } ////// Coerce Source /// private static object CoerceSource(DependencyObject d, object value) { TransformedBitmap bitmap = (TransformedBitmap)d; if (!bitmap._bitmapInit.IsInInit) { return bitmap._source; } else { return value; } } ////// Coerce Transform /// private static object CoerceTransform(DependencyObject d, object value) { TransformedBitmap bitmap = (TransformedBitmap)d; if (!bitmap._bitmapInit.IsInInit) { return bitmap._transform; } else { return value; } } #region Data Members private BitmapSource _source; private Transform _transform; #endregion } #endregion // TransformedBitmap } // File provided for Reference Use Only by Microsoft Corporation (c) 2007.
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