singrdk/base/Imported/Bartok/runtime/shared/GCs/UIntPtrQueue.cs

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2008-11-17 18:29:00 -05:00
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
2008-03-05 09:52:00 -05:00
/*******************************************************************/
/* WARNING */
/* This file should be identical in the Bartok and Singularity */
/* depots. Master copy resides in Bartok Depot. Changes should be */
/* made to Bartok Depot and propagated to Singularity Depot. */
/*******************************************************************/
namespace System.GCs {
using System.Runtime.CompilerServices;
using System.Threading;
internal unsafe struct UIntPtrQueue {
private UnmanagedPageList pageList;
private UIntPtr readPage;
private PageCursor readCursor;
private PageCursor writeCursor;
internal bool IsEmpty {
[Inline]
get { return (this.readCursor.cursor == this.writeCursor.cursor); }
}
internal void Write(UIntPtr value) {
if (this.writeCursor.IsEmpty) {
this.AdvanceWritePage();
}
if (this.readCursor.limit == this.writeCursor.cursor) {
this.writeCursor.Write(value);
this.readCursor.limit = this.writeCursor.cursor;
} else {
this.writeCursor.Write(value);
}
}
internal void Write(UIntPtr value1, UIntPtr value2) {
if (this.writeCursor.HasTwo) {
if (this.readCursor.limit == this.writeCursor.cursor) {
this.writeCursor.Write(value1);
this.writeCursor.Write(value2);
this.readCursor.limit = this.writeCursor.cursor;
} else {
this.writeCursor.Write(value1);
this.writeCursor.Write(value2);
}
} else {
this.Write(value1);
this.Write(value2);
}
}
internal UIntPtr Read() {
if (this.readCursor.IsEmpty) {
this.AdvanceReadPage();
}
return this.readCursor.Read();
}
internal UIntPtr Read(out UIntPtr value2) {
if (this.readCursor.HasTwo) {
UIntPtr value1 = this.readCursor.Read();
value2 = this.readCursor.Read();
return value1;
} else {
UIntPtr value1 = this.Read();
value2 = this.Read();
return value1;
}
}
internal void Cleanup(bool mustBeEmpty) {
if (mustBeEmpty) {
VTable.Assert(this.pageList.Head == this.pageList.Tail);
VTable.Assert(this.readCursor.cursor == this.writeCursor.cursor);
}
if (this.readPage != UIntPtr.Zero) {
UnmanagedPageList.pageCache.AddHead(this.readPage);
this.readPage = UIntPtr.Zero;
}
while (!this.pageList.IsEmpty) {
UIntPtr headPage = this.pageList.RemoveHead();
UnmanagedPageList.pageCache.AddHead(headPage);
}
this.writeCursor = new PageCursor(null, null);
this.readCursor = new PageCursor(null, null);
}
private void AdvanceReadPage() {
if (this.pageList.IsEmpty) {
return;
}
if (this.readPage != UIntPtr.Zero) {
UnmanagedPageList.pageCache.AddHead(this.readPage);
}
this.readPage = this.pageList.RemoveHead();
UIntPtr* startPtr = UnmanagedPageList.FirstPageAddr(this.readPage);
UIntPtr* limitPtr;
if (this.pageList.IsEmpty) {
limitPtr = this.writeCursor.cursor;
} else {
limitPtr = UnmanagedPageList.EndPageAddr(this.readPage);
}
this.readCursor = new PageCursor(startPtr, limitPtr);
}
private void AdvanceWritePage() {
UIntPtr pageAddr;
if (UnmanagedPageList.pageCache.IsEmpty) {
bool fCleanPages = true;
UIntPtr page = PageManager.EnsurePages(null, (UIntPtr) 1,
PageType.System,
ref fCleanPages);
pageAddr = PageTable.PageAddr(page);
} else {
pageAddr = UnmanagedPageList.pageCache.RemoveHead();
}
this.pageList.AddTail(pageAddr);
this.writeCursor =
new PageCursor(UnmanagedPageList.FirstPageAddr(pageAddr),
UnmanagedPageList.EndPageAddr(pageAddr));
}
private struct PageCursor {
internal UIntPtr *cursor;
internal UIntPtr *limit;
internal PageCursor(UIntPtr *start, UIntPtr *limit) {
this.cursor = start;
this.limit = limit;
}
internal bool IsEmpty {
[Inline]
get { return this.cursor == this.limit; }
}
internal bool HasTwo {
[Inline]
get { return (this.cursor + 2 <= this.limit); }
}
[Inline]
internal void Write(UIntPtr value) {
VTable.Deny(this.IsEmpty);
*this.cursor++ = value;
}
[Inline]
internal UIntPtr Read() {
VTable.Deny(this.IsEmpty);
return *this.cursor++;
}
internal bool MoveNext() {
if (this.IsEmpty) {
return false;
}
this.cursor++;
return (!this.IsEmpty);
}
internal UIntPtr Current {
get { return *this.cursor; }
}
internal UIntPtr* CurrentAddr {
get { return this.cursor; }
}
}
internal unsafe struct Enumerator {
private UnmanagedPageList.Enumerator pageEnumerator;
private UIntPtr lastPageStart;
private UIntPtr* lastPageLimit;
private PageCursor currentCursor;
internal Enumerator(ref UIntPtrQueue queue) {
this.pageEnumerator =
new UnmanagedPageList.Enumerator(ref queue.pageList);
this.lastPageLimit = queue.writeCursor.cursor;
this.lastPageStart =
PageTable.PageAlign((UIntPtr) lastPageLimit);
this.currentCursor = new PageCursor(null, null);
if (this.pageEnumerator.MoveNext()) {
UIntPtr currentPage = this.pageEnumerator.Current;
this.SetCursor(currentPage);
}
}
private void SetCursor(UIntPtr pageAddr) {
UIntPtr* preFirstAddr =
UnmanagedPageList.FirstPageAddr(pageAddr) - 1;
if (pageAddr == lastPageStart) {
this.currentCursor = new PageCursor(preFirstAddr,
this.lastPageLimit);
} else {
UIntPtr* endAddr = UnmanagedPageList.EndPageAddr(pageAddr);
this.currentCursor = new PageCursor(preFirstAddr, endAddr);
}
}
internal bool MoveNext() {
if (this.currentCursor.MoveNext()) {
return true;
}
if (!this.pageEnumerator.MoveNext()) {
return false;
}
UIntPtr currentPage = this.pageEnumerator.Current;
this.SetCursor(currentPage);
return this.currentCursor.MoveNext();
}
internal UIntPtr Current {
get { return this.currentCursor.Current; }
}
internal UIntPtr* CurrentAddr {
get { return this.currentCursor.CurrentAddr; }
}
internal void Reset() {
throw new Exception("No reset on UIntPtrQueue iterator");
}
}
}
}