323 lines
12 KiB
C#
323 lines
12 KiB
C#
// ==++==
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//
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// Copyright (c) Microsoft Corporation. All rights reserved.
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//
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// ==--==
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/*============================================================
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**
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** Class: Object
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**
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**
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** Object is the root class for all CLR objects. This class
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** defines only the basics.
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**
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** Date: January 29, 1998
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**
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===========================================================*/
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namespace System {
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using System;
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using System.Runtime.InteropServices;
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using System.Runtime.CompilerServices;
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using CultureInfo = System.Globalization.CultureInfo;
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using System.Threading;
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using Microsoft.Bartok.Runtime;
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// The Object is the root class for all object in the CLR System. Object
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// is the super class for all other CLR objects and provide a set of methods and low level
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// services to subclasses. These services include object synchronization and support for clone
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// operations.
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//
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//| <include path='docs/doc[@for="Object"]/*' />
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[NoCCtor]
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public class Object
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{
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internal PreHeader preHeader;
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[AccessedByRuntime("Accessed from halexn.cpp")]
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internal PostHeader postHeader;
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// Allow us to pretend that the vtable field lives directly in Object.
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internal VTable vtable {
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[NoHeapAllocation]
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[Inline]
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get { return this.postHeader.vtableObject; }
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[NoHeapAllocation]
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[Inline]
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set { this.postHeader.vtableObject = value; }
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}
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internal unsafe UIntPtr* VTableFieldAddr {
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[NoHeapAllocation]
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get { return Magic.toPointer(ref this.postHeader.vtableObject); }
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}
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#if REFERENCE_COUNTING_GC
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internal uint REF_STATE {
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[Inline]
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[ManualRefCounts]
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[NoHeapAllocation]
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get {
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return this.postHeader.refState;
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}
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[Inline]
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[ManualRefCounts]
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[NoHeapAllocation]
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set {
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this.postHeader.refState = value;
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}
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}
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#else // REFERENCE_COUNTING_GC
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internal uint REF_STATE {
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[NoHeapAllocation]
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[Inline]
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get {
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return 1;
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}
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[NoHeapAllocation]
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[Inline]
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set {
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}
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}
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#endif
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// Creates a new instance of an Object.
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//| <include path='docs/doc[@for="Object.Object"]/*' />
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[Inline]
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public Object()
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{
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}
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// Returns a String which represents the object instance. The default
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// for an object is to return the fully qualified name of the class.
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//
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//| <include path='docs/doc[@for="Object.ToString"]/*' />
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public virtual String ToString()
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{
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return GetType().FullName;
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}
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// Returns a boolean indicating if the passed in object obj is
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// Equal to this. Equality is defined as object equality for reference
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// types and bitwise equality for value types using a loader trick to
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// replace Equals with EqualsValue for value types).
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//
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//| <include path='docs/doc[@for="Object.Equals"]/*' />
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[RequiredByBartok]
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public virtual bool Equals(Object obj)
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{
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// This method is overridden for value types
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return (this == obj);
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}
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//| <include path='docs/doc[@for="Object.Equals1"]/*' />
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public static bool Equals(Object objA, Object objB) {
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if (objA==objB) {
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return true;
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}
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if (objA==null || objB==null) {
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return false;
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}
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return objA.Equals(objB);
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}
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//| <include path='docs/doc[@for="Object.ReferenceEquals"]/*' />
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public static bool ReferenceEquals (Object objA, Object objB) {
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return objA == objB;
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}
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// GetHashCode is intended to serve as a hash function for this object.
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// Based on the contents of the object, the hash function will return a suitable
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// value with a relatively random distribution over the various inputs.
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//
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// The default implementation returns the sync block index for this instance.
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// Calling it on the same object multiple times will return the same value, so
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// it will technically meet the needs of a hash function, but it's pretty lame.
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// Objects (& especially value classes) should override this method.
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//
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//| <include path='docs/doc[@for="Object.GetHashCode"]/*' />
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public virtual int GetHashCode()
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{
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return MultiUseWord.GetHashCode(this);
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}
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/// <summary>
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/// Test and set the state of the GC mark bit to be the same
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/// as the passed flag. Note that this operation is not
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/// synchronized so it is possible for multiple marking threads
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/// to 'mark' the same object.
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/// </summary>
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[NoHeapAllocation]
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internal unsafe bool GcMark(UIntPtr flag) {
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UIntPtr *loc = this.VTableFieldAddr;
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UIntPtr val = *loc;
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VTable.Deny(val == UIntPtr.Zero);
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if ((val & (UIntPtr)3) != flag) {
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*loc = (val & ~(UIntPtr)3) + flag;
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return true;
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}
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return false;
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}
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/// <summary>
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/// Return the current state of the GC mark bit.
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/// </summary>
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[NoHeapAllocation]
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internal unsafe UIntPtr GcMark() {
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UIntPtr *loc = this.VTableFieldAddr;
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UIntPtr val = *loc;
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return (val & 3);
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}
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internal unsafe VTable GcUnmarkedVTable {
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[Inline]
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[NoHeapAllocation]
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get {
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UIntPtr *loc = this.VTableFieldAddr;
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return Magic.toVTable(Magic.fromAddress(~(UIntPtr)3 & *loc));
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}
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}
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// Returns a Type object which represent this object instance.
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//
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//| <include path='docs/doc[@for="Object.GetType"]/*' />
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[NoHeapAllocation]
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public Type GetType()
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{
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return vtable.vtableType;
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}
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[NoHeapAllocation]
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public virtual TypeCode GetTypeCode()
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{
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return TypeCode.Object;
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}
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// Allow an object to free resources before the object is reclaimed by the GC.
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// Note: This defines a protected method called Finalize.
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//| <include path='docs/doc[@for="Object.Finalize"]/*' />
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[RequiredByBartok]
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~Object()
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{
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}
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// Returns a new object instance that is a memberwise copy of this
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// object. This is always a shallow copy of the instance. The method is protected
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// so that other object may only call this method on themselves. It is intended to
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// support the ICloneable interface.
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//
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//| <include path='docs/doc[@for="Object.MemberwiseClone"]/*' />
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// BUGBUG: maybe we can try harder to mess up the GC?
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protected Object MemberwiseClone()
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{
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if(this is String) {
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return this;
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// REVIEW: ok, but what in the world is the CLR doing?
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}
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Thread thread = Thread.CurrentThread;
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if(this is Array) {
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Array srcArray = (Array) this;
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Array cloneArray;
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int srcLength = srcArray.Length;
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if (srcArray.IsVector) {
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cloneArray = GC.AllocateVector(srcArray.vtable, srcLength);
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CloneVectorContents(srcArray, cloneArray);
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} else {
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int rank = srcArray.Rank;
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cloneArray =
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GC.AllocateArray(srcArray.vtable, rank, srcLength);
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CloneArrayContents(srcArray, cloneArray);
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}
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return cloneArray;
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} else {
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Object clone = GC.AllocateObject(this.vtable);
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CloneObjectContents(this, clone);
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return clone;
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}
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}
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#if !REFERENCE_COUNTING_GC && !DEFERRED_REFERENCE_COUNTING_GC
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private unsafe static void CloneObjectContents(Object src, Object dst)
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{
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System.GCs.WriteBarrier.Clone(src, dst);
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}
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private unsafe static void CloneVectorContents(Array srcArray,
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Array dstArray)
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{
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System.GCs.WriteBarrier.Clone(srcArray, dstArray);
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}
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private unsafe static void CloneArrayContents(Array srcArray,
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Array dstArray)
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{
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System.GCs.WriteBarrier.Clone(srcArray, dstArray);
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}
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#else
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private unsafe static void CloneObjectContents(Object src, Object dst)
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{
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byte * dstNOTFIXED = (byte *)(Magic.addressOf(dst) + PostHeader.Size);
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byte * srcNOTFIXED = (byte *)(Magic.addressOf(src) + PostHeader.Size);
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int size = unchecked((int) src.vtable.baseLength);
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// We don't copy the header fields, the vtable or the RS field!
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size -= (PreHeader.Size + PostHeader.Size);
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#if REFERENCE_COUNTING_GC
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GCs.ReferenceCountingCollector.
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IncrementReferentRefCounts(Magic.addressOf(src), src.vtable);
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GCs.ReferenceCountingCollector.
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DecrementReferentRefCounts(Magic.addressOf(dst), dst.vtable);
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#elif DEFERRED_REFERENCE_COUNTING_GC
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GCs.DeferredReferenceCountingCollector.
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IncrementReferentRefCounts(Magic.addressOf(src), src.vtable);
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GCs.DeferredReferenceCountingCollector.
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DecrementReferentRefCounts(Magic.addressOf(dst), dst.vtable);
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#endif // REFERENCE_COUNTING_GC
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Buffer.MoveMemory(dstNOTFIXED,srcNOTFIXED,size);
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}
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private unsafe static void CloneVectorContents(Array srcArray,
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Array dstArray)
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{
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int srcLength = srcArray.Length;
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fixed (int *srcFieldPtr = &srcArray.field1) {
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fixed (int *dstFieldPtr = &dstArray.field1) {
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byte *srcDataPtr = (byte *)
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srcArray.GetFirstElementAddress(srcFieldPtr);
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byte *dstDataPtr = (byte *)
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dstArray.GetFirstElementAddress(dstFieldPtr);
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int size = srcArray.vtable.arrayElementSize * srcLength;
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Buffer.MoveMemory(dstDataPtr, srcDataPtr, size);
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}
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}
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}
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private unsafe static void CloneArrayContents(Array srcArray,
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Array dstArray)
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{
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int srcLength = srcArray.Length;
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fixed (int *srcFieldPtr = &srcArray.field1) {
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fixed (int *dstFieldPtr = &dstArray.field1) {
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byte *srcDataPtr = (byte *)
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srcArray.GetFirstElementAddress(srcFieldPtr);
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byte *dstDataPtr = (byte *)
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dstArray.GetFirstElementAddress(dstFieldPtr);
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byte *srcDimPtr = (byte *)
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srcArray.GetFirstDimInfoRectangleArray();
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int dimInfoSize = (int) (srcDataPtr - srcDimPtr);
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int size = srcArray.vtable.arrayElementSize * srcLength;
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Buffer.MoveMemory(dstDataPtr - dimInfoSize,
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srcDataPtr - dimInfoSize,
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size + dimInfoSize);
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}
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}
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}
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#endif
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}
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}
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