Code:
/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / Orcas / NetFXw7 / wpf / src / Base / System / Windows / Generated / Int32Rect.cs / 2 / Int32Rect.cs
//---------------------------------------------------------------------------- // //// Copyright (C) Microsoft Corporation. All rights reserved. // // // This file was generated, please do not edit it directly. // // Please see http://wiki/default.aspx/Microsoft.Projects.Avalon/MilCodeGen.html for more information. // //--------------------------------------------------------------------------- using MS.Internal; using MS.Internal.WindowsBase; using System; using System.Collections; using System.ComponentModel; using System.Diagnostics; using System.Globalization; using System.Reflection; using System.Runtime.InteropServices; using System.ComponentModel.Design.Serialization; using System.Windows.Markup; using System.Windows.Converters; using System.Windows; // These types are aliased to match the unamanaged names used in interop using BOOL = System.UInt32; using WORD = System.UInt16; using Float = System.Single; namespace System.Windows { [Serializable] [TypeConverter(typeof(Int32RectConverter))] [ValueSerializer(typeof(Int32RectValueSerializer))] // Used by MarkupWriter partial struct Int32Rect : IFormattable { //----------------------------------------------------- // // Public Methods // //----------------------------------------------------- #region Public Methods ////// Compares two Int32Rect instances for exact equality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which are logically equal may fail. /// Furthermore, using this equality operator, Double.NaN is not equal to itself. /// ////// bool - true if the two Int32Rect instances are exactly equal, false otherwise /// /// The first Int32Rect to compare /// The second Int32Rect to compare public static bool operator == (Int32Rect int32Rect1, Int32Rect int32Rect2) { return int32Rect1.X == int32Rect2.X && int32Rect1.Y == int32Rect2.Y && int32Rect1.Width == int32Rect2.Width && int32Rect1.Height == int32Rect2.Height; } ////// Compares two Int32Rect instances for exact inequality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which are logically equal may fail. /// Furthermore, using this equality operator, Double.NaN is not equal to itself. /// ////// bool - true if the two Int32Rect instances are exactly unequal, false otherwise /// /// The first Int32Rect to compare /// The second Int32Rect to compare public static bool operator != (Int32Rect int32Rect1, Int32Rect int32Rect2) { return !(int32Rect1 == int32Rect2); } ////// Compares two Int32Rect instances for object equality. In this equality /// Double.NaN is equal to itself, unlike in numeric equality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which /// are logically equal may fail. /// ////// bool - true if the two Int32Rect instances are exactly equal, false otherwise /// /// The first Int32Rect to compare /// The second Int32Rect to compare public static bool Equals (Int32Rect int32Rect1, Int32Rect int32Rect2) { if (int32Rect1.IsEmpty) { return int32Rect2.IsEmpty; } else { return int32Rect1.X.Equals(int32Rect2.X) && int32Rect1.Y.Equals(int32Rect2.Y) && int32Rect1.Width.Equals(int32Rect2.Width) && int32Rect1.Height.Equals(int32Rect2.Height); } } ////// Equals - compares this Int32Rect with the passed in object. In this equality /// Double.NaN is equal to itself, unlike in numeric equality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which /// are logically equal may fail. /// ////// bool - true if the object is an instance of Int32Rect and if it's equal to "this". /// /// The object to compare to "this" public override bool Equals(object o) { if ((null == o) || !(o is Int32Rect)) { return false; } Int32Rect value = (Int32Rect)o; return Int32Rect.Equals(this,value); } ////// Equals - compares this Int32Rect with the passed in object. In this equality /// Double.NaN is equal to itself, unlike in numeric equality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which /// are logically equal may fail. /// ////// bool - true if "value" is equal to "this". /// /// The Int32Rect to compare to "this" public bool Equals(Int32Rect value) { return Int32Rect.Equals(this, value); } ////// Returns the HashCode for this Int32Rect /// ////// int - the HashCode for this Int32Rect /// public override int GetHashCode() { if (IsEmpty) { return 0; } else { // Perform field-by-field XOR of HashCodes return X.GetHashCode() ^ Y.GetHashCode() ^ Width.GetHashCode() ^ Height.GetHashCode(); } } ////// Parse - returns an instance converted from the provided string using /// the culture "en-US" /// string with Int32Rect data /// public static Int32Rect Parse(string source) { IFormatProvider formatProvider = System.Windows.Markup.TypeConverterHelper.EnglishUSCulture; TokenizerHelper th = new TokenizerHelper(source, formatProvider); Int32Rect value; String firstToken = th.NextTokenRequired(); // The token will already have had whitespace trimmed so we can do a // simple string compare. if (firstToken == "Empty") { value = Empty; } else { value = new Int32Rect( Convert.ToInt32(firstToken, formatProvider), Convert.ToInt32(th.NextTokenRequired(), formatProvider), Convert.ToInt32(th.NextTokenRequired(), formatProvider), Convert.ToInt32(th.NextTokenRequired(), formatProvider)); } // There should be no more tokens in this string. th.LastTokenRequired(); return value; } #endregion Public Methods //------------------------------------------------------ // // Public Properties // //----------------------------------------------------- #region Public Properties ////// X - int. Default value is 0. /// public int X { get { return _x; } set { _x = value; } } ////// Y - int. Default value is 0. /// public int Y { get { return _y; } set { _y = value; } } ////// Width - int. Default value is 0. /// public int Width { get { return _width; } set { _width = value; } } ////// Height - int. Default value is 0. /// public int Height { get { return _height; } set { _height = value; } } #endregion Public Properties //------------------------------------------------------ // // Protected Methods // //------------------------------------------------------ #region Protected Methods #endregion ProtectedMethods //----------------------------------------------------- // // Internal Methods // //------------------------------------------------------ #region Internal Methods #endregion Internal Methods //----------------------------------------------------- // // Internal Properties // //----------------------------------------------------- #region Internal Properties ////// Creates a string representation of this object based on the current culture. /// ////// A string representation of this object. /// public override string ToString() { // Delegate to the internal method which implements all ToString calls. return ConvertToString(null /* format string */, null /* format provider */); } ////// Creates a string representation of this object based on the IFormatProvider /// passed in. If the provider is null, the CurrentCulture is used. /// ////// A string representation of this object. /// public string ToString(IFormatProvider provider) { // Delegate to the internal method which implements all ToString calls. return ConvertToString(null /* format string */, provider); } ////// Creates a string representation of this object based on the format string /// and IFormatProvider passed in. /// If the provider is null, the CurrentCulture is used. /// See the documentation for IFormattable for more information. /// ////// A string representation of this object. /// string IFormattable.ToString(string format, IFormatProvider provider) { // Delegate to the internal method which implements all ToString calls. return ConvertToString(format, provider); } ////// Creates a string representation of this object based on the format string /// and IFormatProvider passed in. /// If the provider is null, the CurrentCulture is used. /// See the documentation for IFormattable for more information. /// ////// A string representation of this object. /// internal string ConvertToString(string format, IFormatProvider provider) { if (IsEmpty) { return "Empty"; } // Helper to get the numeric list separator for a given culture. char separator = MS.Internal.TokenizerHelper.GetNumericListSeparator(provider); return String.Format(provider, "{1:" + format + "}{0}{2:" + format + "}{0}{3:" + format + "}{0}{4:" + format + "}", separator, _x, _y, _width, _height); } #endregion Internal Properties //----------------------------------------------------- // // Dependency Properties // //------------------------------------------------------ #region Dependency Properties #endregion Dependency Properties //----------------------------------------------------- // // Internal Fields // //------------------------------------------------------ #region Internal Fields internal int _x; internal int _y; internal int _width; internal int _height; #endregion Internal Fields #region Constructors //------------------------------------------------------ // // Constructors // //----------------------------------------------------- #endregion Constructors } } // File provided for Reference Use Only by Microsoft Corporation (c) 2007. // Copyright (c) Microsoft Corporation. All rights reserved. //---------------------------------------------------------------------------- // //// Copyright (C) Microsoft Corporation. All rights reserved. // // // This file was generated, please do not edit it directly. // // Please see http://wiki/default.aspx/Microsoft.Projects.Avalon/MilCodeGen.html for more information. // //--------------------------------------------------------------------------- using MS.Internal; using MS.Internal.WindowsBase; using System; using System.Collections; using System.ComponentModel; using System.Diagnostics; using System.Globalization; using System.Reflection; using System.Runtime.InteropServices; using System.ComponentModel.Design.Serialization; using System.Windows.Markup; using System.Windows.Converters; using System.Windows; // These types are aliased to match the unamanaged names used in interop using BOOL = System.UInt32; using WORD = System.UInt16; using Float = System.Single; namespace System.Windows { [Serializable] [TypeConverter(typeof(Int32RectConverter))] [ValueSerializer(typeof(Int32RectValueSerializer))] // Used by MarkupWriter partial struct Int32Rect : IFormattable { //----------------------------------------------------- // // Public Methods // //----------------------------------------------------- #region Public Methods ////// Compares two Int32Rect instances for exact equality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which are logically equal may fail. /// Furthermore, using this equality operator, Double.NaN is not equal to itself. /// ////// bool - true if the two Int32Rect instances are exactly equal, false otherwise /// /// The first Int32Rect to compare /// The second Int32Rect to compare public static bool operator == (Int32Rect int32Rect1, Int32Rect int32Rect2) { return int32Rect1.X == int32Rect2.X && int32Rect1.Y == int32Rect2.Y && int32Rect1.Width == int32Rect2.Width && int32Rect1.Height == int32Rect2.Height; } ////// Compares two Int32Rect instances for exact inequality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which are logically equal may fail. /// Furthermore, using this equality operator, Double.NaN is not equal to itself. /// ////// bool - true if the two Int32Rect instances are exactly unequal, false otherwise /// /// The first Int32Rect to compare /// The second Int32Rect to compare public static bool operator != (Int32Rect int32Rect1, Int32Rect int32Rect2) { return !(int32Rect1 == int32Rect2); } ////// Compares two Int32Rect instances for object equality. In this equality /// Double.NaN is equal to itself, unlike in numeric equality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which /// are logically equal may fail. /// ////// bool - true if the two Int32Rect instances are exactly equal, false otherwise /// /// The first Int32Rect to compare /// The second Int32Rect to compare public static bool Equals (Int32Rect int32Rect1, Int32Rect int32Rect2) { if (int32Rect1.IsEmpty) { return int32Rect2.IsEmpty; } else { return int32Rect1.X.Equals(int32Rect2.X) && int32Rect1.Y.Equals(int32Rect2.Y) && int32Rect1.Width.Equals(int32Rect2.Width) && int32Rect1.Height.Equals(int32Rect2.Height); } } ////// Equals - compares this Int32Rect with the passed in object. In this equality /// Double.NaN is equal to itself, unlike in numeric equality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which /// are logically equal may fail. /// ////// bool - true if the object is an instance of Int32Rect and if it's equal to "this". /// /// The object to compare to "this" public override bool Equals(object o) { if ((null == o) || !(o is Int32Rect)) { return false; } Int32Rect value = (Int32Rect)o; return Int32Rect.Equals(this,value); } ////// Equals - compares this Int32Rect with the passed in object. In this equality /// Double.NaN is equal to itself, unlike in numeric equality. /// Note that double values can acquire error when operated upon, such that /// an exact comparison between two values which /// are logically equal may fail. /// ////// bool - true if "value" is equal to "this". /// /// The Int32Rect to compare to "this" public bool Equals(Int32Rect value) { return Int32Rect.Equals(this, value); } ////// Returns the HashCode for this Int32Rect /// ////// int - the HashCode for this Int32Rect /// public override int GetHashCode() { if (IsEmpty) { return 0; } else { // Perform field-by-field XOR of HashCodes return X.GetHashCode() ^ Y.GetHashCode() ^ Width.GetHashCode() ^ Height.GetHashCode(); } } ////// Parse - returns an instance converted from the provided string using /// the culture "en-US" /// string with Int32Rect data /// public static Int32Rect Parse(string source) { IFormatProvider formatProvider = System.Windows.Markup.TypeConverterHelper.EnglishUSCulture; TokenizerHelper th = new TokenizerHelper(source, formatProvider); Int32Rect value; String firstToken = th.NextTokenRequired(); // The token will already have had whitespace trimmed so we can do a // simple string compare. if (firstToken == "Empty") { value = Empty; } else { value = new Int32Rect( Convert.ToInt32(firstToken, formatProvider), Convert.ToInt32(th.NextTokenRequired(), formatProvider), Convert.ToInt32(th.NextTokenRequired(), formatProvider), Convert.ToInt32(th.NextTokenRequired(), formatProvider)); } // There should be no more tokens in this string. th.LastTokenRequired(); return value; } #endregion Public Methods //------------------------------------------------------ // // Public Properties // //----------------------------------------------------- #region Public Properties ////// X - int. Default value is 0. /// public int X { get { return _x; } set { _x = value; } } ////// Y - int. Default value is 0. /// public int Y { get { return _y; } set { _y = value; } } ////// Width - int. Default value is 0. /// public int Width { get { return _width; } set { _width = value; } } ////// Height - int. Default value is 0. /// public int Height { get { return _height; } set { _height = value; } } #endregion Public Properties //------------------------------------------------------ // // Protected Methods // //------------------------------------------------------ #region Protected Methods #endregion ProtectedMethods //----------------------------------------------------- // // Internal Methods // //------------------------------------------------------ #region Internal Methods #endregion Internal Methods //----------------------------------------------------- // // Internal Properties // //----------------------------------------------------- #region Internal Properties ////// Creates a string representation of this object based on the current culture. /// ////// A string representation of this object. /// public override string ToString() { // Delegate to the internal method which implements all ToString calls. return ConvertToString(null /* format string */, null /* format provider */); } ////// Creates a string representation of this object based on the IFormatProvider /// passed in. If the provider is null, the CurrentCulture is used. /// ////// A string representation of this object. /// public string ToString(IFormatProvider provider) { // Delegate to the internal method which implements all ToString calls. return ConvertToString(null /* format string */, provider); } ////// Creates a string representation of this object based on the format string /// and IFormatProvider passed in. /// If the provider is null, the CurrentCulture is used. /// See the documentation for IFormattable for more information. /// ////// A string representation of this object. /// string IFormattable.ToString(string format, IFormatProvider provider) { // Delegate to the internal method which implements all ToString calls. return ConvertToString(format, provider); } ////// Creates a string representation of this object based on the format string /// and IFormatProvider passed in. /// If the provider is null, the CurrentCulture is used. /// See the documentation for IFormattable for more information. /// ////// A string representation of this object. /// internal string ConvertToString(string format, IFormatProvider provider) { if (IsEmpty) { return "Empty"; } // Helper to get the numeric list separator for a given culture. char separator = MS.Internal.TokenizerHelper.GetNumericListSeparator(provider); return String.Format(provider, "{1:" + format + "}{0}{2:" + format + "}{0}{3:" + format + "}{0}{4:" + format + "}", separator, _x, _y, _width, _height); } #endregion Internal Properties //----------------------------------------------------- // // Dependency Properties // //------------------------------------------------------ #region Dependency Properties #endregion Dependency Properties //----------------------------------------------------- // // Internal Fields // //------------------------------------------------------ #region Internal Fields internal int _x; internal int _y; internal int _width; internal int _height; #endregion Internal Fields #region Constructors //------------------------------------------------------ // // Constructors // //----------------------------------------------------- #endregion Constructors } } // File provided for Reference Use Only by Microsoft Corporation (c) 2007. // Copyright (c) Microsoft Corporation. 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