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OtlContainers.pas
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OtlContainers.pas
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///<summary>Microlocking containers. Part of the OmniThreadLibrary project.</summary>
///<remarks>TOmni[Base]Queue requires Pentium 4 processor (or newer) unless OTL_OLDCPU is defined.</remarks>
///<author>Primoz Gabrijelcic, GJ</author>
///<license>
///This software is distributed under the BSD license.
///
///Copyright (c) 2019 Primoz Gabrijelcic
///All rights reserved.
///
///Redistribution and use in source and binary forms, with or without modification,
///are permitted provided that the following conditions are met:
///- Redistributions of source code must retain the above copyright notice, this
/// list of conditions and the following disclaimer.
///- Redistributions in binary form must reproduce the above copyright notice,
/// this list of conditions and the following disclaimer in the documentation
/// and/or other materials provided with the distribution.
///- The name of the Primoz Gabrijelcic may not be used to endorse or promote
/// products derived from this software without specific prior written permission.
///
///THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
///ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
///WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
///DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
///ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
///(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
///LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
///ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
///(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
///SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
///</license>
///<remarks><para>
/// Home : http://www.omnithreadlibrary.com
/// Support : https://en.delphipraxis.net/forum/32-omnithreadlibrary/
/// Author : Primoz Gabrijelcic
/// E-Mail : [email protected]
/// Blog : http://thedelphigeek.com
/// Contributors : GJ, Sean B. Durkin
/// Creation date : 2008-07-13
/// Last modification : 2018-04-17
/// Version : 3.02b
///</para><para>
/// History:
/// 3.02b: 2018-04-17
/// - Fixed race condition in TOmniBaseBoundedQueue.RemoveLink which could cause
/// TOmniBaseBoundedQueue.Enqueue to return False when queue was empty.
/// 3.02a: 2017-04-06
/// - Compiles with Delphi 10.2 Tokyo.
/// 3.02: 2015-10-03
/// - Imported mobile support by [Sean].
/// 3.01a: 2012-12-05
/// - Prevent memory leak if (Queue|Stack).Initialize is called more than once
/// (thx to [h.hasenack]).
/// 3.01: 2012-11-09
/// - TOmniBaseBounded(Queue|Stack) internally aligns allocated memory to required
/// CAS granularity (8 bytes on 32-bit platforms, 16 bytes on 64-bit platforms).
/// - TOmniBaseBoundedQueue's ring buffers are internally aligned to 2*SizeOf(pointer).
/// 3.0: 2011-12-19
/// - [GJ] Implemented 64-bit TOmni[Base]Bounded(Queue|Stack).
/// - Fixed TOmni[Base]Queue to work in 64-bit world.
/// 2.05: 2011-08-26
/// - Implemented TOmni[Base]Queue.IsEmpty. Keep in mind that the returned value may
/// not be valid for any ammount of time if other threads are reading from/
/// writing to the queue.
/// 2.04: 2010-07-01
/// - Includes OTLOptions.inc.
/// 2.03a: 2010-05-06
/// - Fixed memory leak in TOmni[Base]Queue when queueing String, WideString,
/// Variant and Extended values.
/// 2.03: 2010-02-18
/// - Reversed head and tail because they were used illogically.
/// 2.02a: 2010-02-09
/// - Dynamically allocate head/tail structures so that they are allways 8-allocated.
/// - Optimized algorithm using atomic move instead of atomic compare-and-swap in
/// some places (thanks to GJ).
/// 2.02: 2010-02-08
/// - New ABA- and MREW-free dynamic queue algorithm.
/// - Dynamic queue parameters are settable in the constructor.
/// 2.01: 2010-02-04
/// - Uses CAS8 instead of CAS32.
/// 2.0: 2009-12-25
/// - Implemented dynamically allocated, O(1) enqueue and dequeue, threadsafe,
/// microlocking queue. Class TOmniBaseQueue contains base implementation
/// while TOmniQueue adds notification support.
/// - Big class rename: TOmniBaseStack -> TOmniBaseBoundedStack,
/// TOmniStack -> TOmniBoundedStack, TOmniBaseQueue -> TOmniBaseBoundedQueue,
/// TOmniQueue -> TOmniBoundedQueue.
/// 1.02: 2009-12-22
/// - TOmniContainerSubject moved into OtlContainerObserver because it will also be
/// used in OtlCollections.
/// 1.01b: 2009-11-11
/// - [GJ] better fix for the initialization crash.
/// 1.01a: 2009-11-10
/// - Bug fixed: Initialization code could crash with range check error.
/// 1.01: 2008-10-26
/// - [GJ] Redesigned stack with better lock contention.
/// - [GJ] Totally redesigned queue, which is no longer based on stack and allows
/// multiple readers.
///</para></remarks>
unit OtlContainers;
{$I OtlOptions.inc}
{$OPTIMIZATION ON}
{$WARN SYMBOL_PLATFORM OFF}
{$IFNDEF CPUX64}
{$DEFINE OTL_OLDCPU} // undefine if you're sure your code will only run on a CPU that supports SSE2 instruction set (more specifically, Move64 instruction)
{$ENDIF ~CPUX64}
//DEFINE DEBUG_OMNI_QUEUE to enable assertions in TOmniBaseQueue
//We don't have a platform-independant way of using cmpx8b/cmpx16b
//(5-parameter OtlSync.CAS) so we can't use bus-locking on non-Windows targets.
{$IFDEF MSWINDOWS}
{$DEFINE OTL_HaveCmpx16b}
{$ELSE}
{$UNDEF OTL_HaveCmpx16b}
{$ENDIF ~MSWINDOWS}
interface
uses
Classes,
OtlCommon,
OtlSync,
SyncObjs,
{$IFDEF MSWINDOWS}
DSiWin32,
GpStuff,
{$ENDIF}
OtlContainerObserver;
const
CPartlyEmptyLoadFactor = 0.8; // When an element count drops below 80%, the container is considered 'partly empty'.
CAlmostFullLoadFactor = 0.9; // When an element count raises above 90%, the container is considered 'almost full'.
type
{:Lock-free, multiple writer, multiple reader, bounded stack.
}
IOmniStack = interface ['{F4C57327-18A0-44D6-B95D-2D51A0EF32B4}']
procedure Empty;
procedure Initialize(numElements, elementSize: integer);
function IsEmpty: boolean;
function IsFull: boolean;
function Pop(var value): boolean;
function Push(const value): boolean;
end; { IOmniStack }
{:Lock-free, multiple writer, multiple reader ring buffer (bounded queue).
}
IOmniQueue = interface ['{AE6454A2-CDB4-43EE-9F1B-5A7307593EE9}']
function Dequeue(var value): boolean;
procedure Empty;
function Enqueue(const value): boolean;
procedure Initialize(numElements, elementSize: integer);
function IsEmpty: boolean;
function IsFull: boolean;
end; { IOmniQueue }
{$IFDEF OTL_MobileSupport}
IOmniValueQueue = interface ['{3399B817-0502-4837-B1D7-BA167E8E03A7}']
function GetContainerSubject: TOmniContainerSubject;
function IsEmpty: boolean;
function Dequeue: TOmniValue;
procedure Enqueue(const value: TOmniValue);
function TryDequeue(var value: TOmniValue): boolean;
property ContainerSubject: TOmniContainerSubject read GetContainerSubject;
end; { IOmniValueQueue }
{$ENDIF OTL_MobileSupport}
PReferencedPtr = ^TReferencedPtr;
TReferencedPtr = record
{$IFNDEF OTL_HaveCmpx16b}[Volatile]{$ENDIF}
PData : pointer;
{$IFDEF OTL_HaveCmpx16b} // references are only used in bus-locked implementation
Reference: NativeInt;
{$ENDIF}
end; { TReferencedPtr }
TReferencedPtrBuffer = array [0..MaxInt shr 5] of TReferencedPtr;
POmniRingBuffer = ^TOmniRingBuffer;
TOmniRingBuffer = packed record
FirstIn : TReferencedPtr;
Dummy : array[1..128 - SizeOf(TReferencedPtr)] of byte; // push LastIn into next cache line
LastIn : TReferencedPtr;
StartBuffer : pointer;
EndBuffer : pointer;
Buffer : TReferencedPtrBuffer;
end; { TOmniRingBuffer }
POmniLinkedData = ^TOmniLinkedData;
TOmniLinkedData = packed record
Next: POmniLinkedData;
Data: record end; //user data, variable size
end; { TOmniLinkedData }
TOmniBaseBoundedStack = class abstract(TInterfacedObject, IOmniStack)
strict private
obsDataBuffer : pointer;
obsElementSize : integer;
obsNumElements : integer;
obsPublicChainP : PReferencedPtr;
obsRecycleChainP: PReferencedPtr;
{$IFNDEF OTL_HaveCmpx16b}
obsLock : IOmniCriticalSection;
{$ENDIF ~OTL_HaveCmpx16b}
class var
class var obsIsInitialized: boolean; //default is false
class var obsTaskPopLoops : NativeInt;
class var obsTaskPushLoops: NativeInt;
strict protected
procedure Acquire; inline;
procedure Release; inline;
procedure MeasureExecutionTimes;
class function PopLink(var chain: TReferencedPtr): POmniLinkedData; static;
class procedure PushLink(const link: POmniLinkedData; var chain: TReferencedPtr); static;
public
constructor Create;
destructor Destroy; override;
procedure Empty;
procedure Initialize(numElements, elementSize: integer); virtual;
function IsEmpty: boolean; inline;
function IsFull: boolean; inline;
function Pop(var value): boolean;
function Push(const value): boolean;
property ElementSize: integer read obsElementSize;
property NumElements: integer read obsNumElements;
end; { TOmniBaseBoundedStack }
TOmniBoundedStack = class(TOmniBaseBoundedStack)
strict private
osAlmostFullCount : integer;
osContainerSubject: TOmniContainerSubject;
osInStackCount : TOmniAlignedInt32;
osPartlyEmptyCount: integer;
public
constructor Create(numElements, elementSize: integer;
partlyEmptyLoadFactor: real = CPartlyEmptyLoadFactor;
almostFullLoadFactor: real = CAlmostFullLoadFactor);
destructor Destroy; override;
function Pop(var value): boolean;
function Push(const value): boolean;
property ContainerSubject: TOmniContainerSubject read osContainerSubject;
end; { TOmniBoundedStack }
TOmniBaseBoundedQueue = class abstract(TInterfacedObject, IOmniQueue)
strict private
obqDataBuffer : pointer;
obqElementSize : integer;
obqNumElements : integer;
obqPublicRingBuffer : POmniRingBuffer;
obqPublicRingMem : pointer;
obqRecycleRingBuffer: POmniRingBuffer;
obqRecycleRingMem : pointer;
{$IFNDEF OTL_HaveCmpx16b}
obqLock : IOmniCriticalSection;
{$ENDIF ~OTL_HaveCmpx16b}
class var
class var obqIsInitialized : boolean;
class var obqTaskInsertLoops: NativeInt; //default is false
class var obqTaskRemoveLoops: NativeInt;
strict protected
procedure Acquire; inline;
procedure Release; inline;
class procedure InsertLink(const data: pointer; const ringBuffer: POmniRingBuffer);
static;
procedure MeasureExecutionTimes;
class function RemoveLink(const ringBuffer: POmniRingBuffer): pointer; static;
public
constructor Create;
destructor Destroy; override;
function Dequeue(var value): boolean;
procedure Empty;
function Enqueue(const value): boolean;
procedure Initialize(numElements, elementSize: integer); virtual;
function IsEmpty: boolean;
function IsFull: boolean;
property ElementSize: integer read obqElementSize;
property NumElements: integer read obqNumElements;
end; { TOmniBaseBoundedQueue }
TOmniBoundedQueue = class(TOmniBaseBoundedQueue)
strict private
oqAlmostFullCount : integer;
oqContainerSubject: TOmniContainerSubject;
oqInQueueCount : TOmniAlignedInt32;
oqPartlyEmptyCount: integer;
public
constructor Create(numElements, elementSize: integer;
partlyEmptyLoadFactor: real = CPartlyEmptyLoadFactor;
almostFullLoadFactor: real = CAlmostFullLoadFactor);
destructor Destroy; override;
function Dequeue(var value): boolean;
function Enqueue(const value): boolean;
property ContainerSubject: TOmniContainerSubject read oqContainerSubject;
end; { TOmniBoundedQueue }
TOmniQueueTag = (tagFree, tagAllocating, tagAllocated, tagRemoving,
tagEndOfList, tagExtending, tagBlockPointer, tagDestroying, tagHeader,
tagSentinel);
TOmniTaggedValue = packed record
Value : TOmniValue; //aligned for faster data access; overlaps with header's unreleased slot count, which must be pointer-aligned
Tag : TOmniQueueTag;
Offset : word;
{$IFDEF CPUX64}
Stuffing: array[1..4] of byte; // make TOmniTaggedValue 3 pointers big
{$ENDIF CPUX64}
function CASTag(oldTag, newTag: TOmniQueueTag): boolean; inline; // atomic on Windows, composite on other platforms
end; { TOmniTaggedValue }
POmniTaggedValue = ^TOmniTaggedValue;
TOmniTaggedPointer = packed record
Slot : POmniTaggedValue;
Tag : TOmniQueueTag;
{$IFNDEF CPUX64}
Stuffing: array [1..3] of byte; // record size must be congruent to 0 (mod 4)
{$ELSE CPUX64}
Stuffing: array [1..7] of byte; // record size must be congruent to 0 (mod 8)
{$ENDIF CPUX64}
function CAS(
oldSlot: POmniTaggedValue; oldTag: TOmniQueueTag;
newSlot: POmniTaggedValue; newTag: TOmniQueueTag): boolean; inline; // atomic on Windows, composite on other platforms
procedure Move(newSlot: POmniTaggedValue; newTag: TOmniQueueTag); inline; // atomic on Windows, composite on other platforms
end; { TOmniTaggedPointer }
POmniTaggedPointer = ^TOmniTaggedPointer;
///<summary>Dynamically allocated, O(1) enqueue and dequeue, threadsafe, microlocking queue.</summary>
TOmniBaseQueue = class
strict private // keep 4-aligned
obcCachedBlock: POmniTaggedValue;
strict private
obcBlockSize : integer;
obcHeadPointer: POmniTaggedPointer;
obcMemStack : TOmniBaseBoundedStack;
obcNumSlots : integer;
obcTailPointer: POmniTaggedPointer;
{$IFNDEF OTL_HaveCmpx16b}
obcLock : IOmniCriticalSection;
{$ENDIF ~OTL_HaveCmpx16b}
strict protected
{$IFDEF DEBUG_OMNI_QUEUE}
procedure Assert(condition: boolean);
{$ENDIF DEBUG_OMNI_QUEUE}
strict protected
procedure Acquire; inline;
function AllocateBlock: POmniTaggedValue;
procedure Cleanup; virtual;
procedure Initialize; virtual;
function NextSlot(slot: POmniTaggedValue): POmniTaggedValue; inline;
procedure PartitionMemory(memory: POmniTaggedValue);
procedure PreallocateMemory;
function PrevSlot(slot: POmniTaggedValue): POmniTaggedValue; inline;
procedure Release; inline;
procedure ReleaseBlock(firstSlot: POmniTaggedValue; forceFree: boolean = false);
public
constructor Create(blockSize: integer = 65536; numCachedBlocks: integer = 4);
destructor Destroy; override;
function Dequeue: TOmniValue;
procedure Enqueue(const value: TOmniValue);
function IsEmpty: boolean;
function TryDequeue(var value: TOmniValue): boolean;
end; { TOmniBaseQueue }
TOmniQueue = class(TOmniBaseQueue)
strict private
ocContainerSubject: TOmniContainerSubject;
strict protected
procedure Cleanup; override;
procedure Initialize; override;
public
function Dequeue: TOmniValue;
procedure Enqueue(const value: TOmniValue);
function TryDequeue(var value: TOmniValue): boolean;
property ContainerSubject: TOmniContainerSubject read ocContainerSubject;
end; { TOmniQueue }
{$IFDEF OTL_MobileSupport}
/// <param name="UseBusLocking">Set to true to use a spinlock. Otherwise synchronisation is achieved by a critical section.</param>
/// <param name="ThresholdForFull">The count of OmniValues to which if the queue reaches or exceeds, it is considered full.
/// Use a a value of -1 to indicate there is no threshold (and hence events like coiNotifyOnAlmostFull will never fire).</param>
function CreateOmniValueQueue(UseBusLocking: boolean; ThresholdForFull: integer = -1): IOmniValueQueue;
{$ENDIF OTL_MobileSupport}
implementation
uses
{$IFDEF MSWINDOWS}
Windows,
{$ENDIF MSWINDOWS}
{$IFDEF OTL_MobileSupport}
Generics.Collections,
{$ENDIF OTL_MobileSupport}
SysUtils;
{$IFDEF OTL_MobileSupport}
type
TInterestSet = set of TOmniContainerObserverInterest;
TOmniValueQueue = class(TInterfacedObject, IOmniValueQueue)
strict private
FAlmostFullThreshold : integer;
FContainerSubject : TOmniContainerSubject;
FFullThreshold : integer;
FInnerQueue : TQueue<TOmniValue>;
FNotifiableEvents : TInterestSet;
FPartlyEmptyThreshold: integer;
strict private
procedure CollectionNotifyEvent(Sender: TObject; const Item: TOmniValue; Action: TCollectionNotification);
function Dequeue: TOmniValue;
procedure DoWithCritSec( Proc: TProc);
procedure Enqueue(const value: TOmniValue);
function GetContainerSubject: TOmniContainerSubject;
function IsEmpty: boolean;
procedure PropagateNotifications(Events: TInterestSet);
function TryDequeue(var value: TOmniValue): boolean;
protected
procedure EnterCriticalSection; virtual; abstract;
procedure LeaveCriticalSection; virtual; abstract;
public
constructor Create(AThresholdForFull: integer);
destructor Destroy; override;
end; { TOmniValueQueue }
TOmniValueQueueCS = class(TOmniValueQueue)
strict private
FCritSect: TFixedCriticalSection;
protected
procedure EnterCriticalSection; override;
procedure LeaveCriticalSection; override;
public
constructor Create(AThresholdForFull: integer);
destructor Destroy; override;
end; { TOmniValueQueueCS }
TOmniValueQueueSpin = class(TOmniValueQueue)
strict private
FLock: TSpinLock;
protected
procedure EnterCriticalSection; override;
procedure LeaveCriticalSection; override;
public
constructor Create(AThresholdForFull: integer);
end; { TOmniValueQueueSpin }
function CreateOmniValueQueue(UseBusLocking: boolean; ThresholdForFull: integer = -1): IOmniValueQueue;
begin
if UseBusLocking then
Result := TOmniValueQueueSpin.Create(ThresholdForFull)
else
Result := TOmniValueQueueCS.Create(ThresholdForFull)
end; { CreateOmniValueQueue }
{$ENDIF OTL_MobileSupport}
{$IFDEF MSWINDOWS}
{$IFDEF CPUX64}
procedure AsmInt3;
asm
.noframe
int 3
end; { AsmInt3 }
procedure AsmPause;
asm
.noframe
pause;
end; { AsmPause }
{$ENDIF CPUX64}
{$ENDIF MSWINDOWS}
function RoundUpTo(value: pointer; granularity: integer): pointer;
begin
Result := pointer((((NativeInt(value) - 1) div granularity) + 1) * granularity);
end; { RoundUpTo }
{ TOmniBaseBoundedStack }
constructor TOmniBaseBoundedStack.Create;
begin
inherited Create;
{$IFNDEF OTL_HaveCmpx16b}
obsLock := CreateOmniCriticalSection;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedStack.Create }
destructor TOmniBaseBoundedStack.Destroy;
begin
FreeMem(obsDataBuffer);
inherited;
end; { TOmniBaseBoundedStack.Destroy }
procedure TOmniBaseBoundedStack.Acquire; //inline
begin
{$IFNDEF OTL_HaveCmpx16b}
obsLock.Acquire;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedStack.Acquire }
procedure TOmniBaseBoundedStack.Release; //inline
begin
{$IFNDEF OTL_HaveCmpx16b}
obsLock.Release;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedStack.Release }
procedure TOmniBaseBoundedStack.Empty;
var
linkedData: POmniLinkedData;
begin
repeat
linkedData := PopLink(obsPublicChainP^);
if not assigned(linkedData) then
break; //repeat
PushLink(linkedData, obsRecycleChainP^);
until false;
end; { TOmniBaseBoundedStack.Empty }
procedure TOmniBaseBoundedStack.Initialize(numElements, elementSize: integer);
var
bufferElementSize : integer;
currElement : POmniLinkedData;
dataBuffer : pointer;
iElement : integer;
nextElement : POmniLinkedData;
roundedElementSize: integer;
begin
Assert(SizeOf(NativeInt) = SizeOf(pointer));
Assert(numElements > 0);
Assert(elementSize > 0);
obsNumElements := numElements;
obsElementSize := elementSize;
//calculate element size, round up to next aligned value
roundedElementSize := (elementSize + SizeOf(pointer) - 1) AND NOT (SizeOf(pointer) - 1);
//calculate buffer element size, round up to next aligned value
bufferElementSize := ((SizeOf(TOmniLinkedData) + roundedElementSize) + SizeOf(pointer) - 1) AND NOT (SizeOf(pointer) - 1);
//calculate DataBuffer
FreeMem(obsDataBuffer);
GetMem(obsDataBuffer, bufferElementSize * numElements + 2 * SizeOf(TReferencedPtr) + CASAlignment);
dataBuffer := RoundUpTo(obsDataBuffer, CASAlignment);
if NativeInt(dataBuffer) AND (SizeOf(pointer) - 1) <> 0 then
raise Exception.Create('TOmniBaseContainer: obcBuffer is not aligned');
obsPublicChainP := dataBuffer;
inc(NativeInt(dataBuffer), SizeOf(TReferencedPtr));
obsRecycleChainP := dataBuffer;
inc(NativeInt(dataBuffer), SizeOf(TReferencedPtr));
//Format buffer to recycleChain, init obsRecycleChain and obsPublicChain.
//At the beginning, all elements are linked into the recycle chain.
obsRecycleChainP^.PData := dataBuffer;
currElement := obsRecycleChainP^.PData;
for iElement := 0 to obsNumElements - 2 do begin
nextElement := POmniLinkedData(NativeInt(currElement) + bufferElementSize);
currElement.Next := nextElement;
currElement := nextElement;
end;
currElement.Next := nil; // terminate the chain
obsPublicChainP^.PData := nil;
MeasureExecutionTimes;
end; { TOmniBaseBoundedStack.Initialize }
function TOmniBaseBoundedStack.IsEmpty: boolean;
begin
Result := not assigned(obsPublicChainP^.PData);
end; { TOmniBaseBoundedStack.IsEmpty }
function TOmniBaseBoundedStack.IsFull: boolean;
begin
Result := not assigned(obsRecycleChainP^.PData);
end; { TOmniBaseBoundedStack.IsFull }
procedure TOmniBaseBoundedStack.MeasureExecutionTimes;
const
NumOfSamples = 10;
var
TimeTestField: array [0..1] of array [1..NumOfSamples] of int64;
function GetMinAndClear(routine, count: cardinal): int64;
var
m: cardinal;
n: integer;
x: integer;
begin
Result := 0;
for m := 1 to count do begin
x:= 1;
for n:= 2 to NumOfSamples do
if TimeTestField[routine, n] < TimeTestField[routine, x] then
x := n;
Inc(Result, TimeTestField[routine, x]);
TimeTestField[routine, x] := MaxLongInt;
end;
end; { GetMinAndClear }
var
{$IFDEF MSWINDOWS}
affinity : string;
{$ENDIF MSWINDOWS}
currElement: POmniLinkedData;
n : integer;
begin { TOmniBaseBoundedStack.MeasureExecutionTimes }
if not obsIsInitialized then begin
{$IFDEF MSWINDOWS}
affinity := DSiGetThreadAffinity;
DSiSetThreadAffinity(affinity[1]);
try
{$ENDIF MSWINDOWS}
//Calculate TaskPopDelay and TaskPushDelay counter values depend on CPU speed!!!}
obsTaskPopLoops := 1;
obsTaskPushLoops := 1;
for n := 1 to NumOfSamples do begin
{$IFDEF OTL_HasTThreadYield}TThread.Yield;{$ELSE}DSiYield;{$ENDIF}
//Measure RemoveLink rutine delay
TimeTestField[0, n] := GetCPUTimeStamp;
currElement := PopLink(obsRecycleChainP^);
TimeTestField[0, n] := GetCPUTimeStamp - TimeTestField[0, n];
//Measure InsertLink rutine delay
TimeTestField[1, n] := GetCPUTimeStamp;
PushLink(currElement, obsRecycleChainP^);
TimeTestField[1, n] := GetCPUTimeStamp - TimeTestField[1, n];
end;
//Calculate first 4 minimum average for RemoveLink rutine
obsTaskPopLoops := GetMinAndClear(0, 4) div 4;
//Calculate first 4 minimum average for InsertLink rutine
obsTaskPushLoops := GetMinAndClear(1, 4) div 4;
obsIsInitialized := true;
{$IFDEF MSWINDOWS}
finally DSiSetThreadAffinity(affinity); end;
{$ENDIF MSWINDOWS}
end;
end; { TOmniBaseBoundedStack.MeasureExecutionTimes }
function TOmniBaseBoundedStack.Pop(var value): boolean;
var
linkedData: POmniLinkedData;
begin
Acquire;
try
linkedData := PopLink(obsPublicChainP^);
Result := assigned(linkedData);
if not Result then
Exit;
Move(linkedData.Data, value, ElementSize);
PushLink(linkedData, obsRecycleChainP^);
finally Release; end;
end; { TOmniBaseBoundedStack.Pop }
class function TOmniBaseBoundedStack.PopLink(var chain: TReferencedPtr): POmniLinkedData;
//nil << Link.Next << Link.Next << ... << Link.Next
// ^------ < chainHead
var
AtStartReference: NativeInt;
CurrentReference: NativeInt;
TaskCounter : NativeInt;
ThreadReference : NativeInt;
label
TryAgain;
begin
{$IFDEF OTL_HaveCmpx16b}
ThreadReference := OtlSync.GetThreadId + 1; //Reference.bit0 := 1
with chain do begin
TryAgain:
TaskCounter := obsTaskPopLoops;
AtStartReference := Reference OR 1; //Reference.bit0 := 1
repeat
CurrentReference := Reference;
Dec(TaskCounter);
until (TaskCounter = 0) or (CurrentReference AND 1 = 0);
if (CurrentReference AND 1 <> 0) and (AtStartReference <> CurrentReference) or
not TInterlockedEx.CAS(CurrentReference, ThreadReference, Reference)
then
goto TryAgain;
//Reference is set...
Result := PData;
//Empty test
if result = nil then
TInterlockedEx.CAS(ThreadReference, 0, Reference) //Clear Reference if task own reference
else if not CAS(Result, ThreadReference, Result.Next, 0, chain) then
goto TryAgain;
end; //with chain
{$ELSE ~OTL_HaveCmpx16b}
Result := chain.PData;
chain.PData := Result^.Next;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedStack.PopLink }
function TOmniBaseBoundedStack.Push(const value): boolean;
var
linkedData: POmniLinkedData;
begin
Acquire;
try
linkedData := PopLink(obsRecycleChainP^);
Result := assigned(linkedData);
if not Result then
Exit;
Move(value, linkedData.Data, ElementSize);
PushLink(linkedData, obsPublicChainP^);
finally Release; end;
end; { TOmniBaseBoundedStack.Push }
class procedure TOmniBaseBoundedStack.PushLink(const link: POmniLinkedData; var chain: TReferencedPtr);
var
PMemData : pointer;
TaskCounter: NativeInt;
begin
{$IFDEF OTL_HaveCmpx16b}
with chain do begin
for TaskCounter := 0 to obsTaskPushLoops do
if (Reference AND 1 = 0) then
break;
repeat
PMemData := PData;
link.Next := PMemData;
until TInterlockedEx.CAS(PMemData, link, PData);
end;
{$ELSE ~OTL_HaveCmpx16b}
link.Next := chain.PData;
chain.PData := link;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedStack.PushLink }
{ TOmniBoundedStack }
constructor TOmniBoundedStack.Create(numElements, elementSize: integer; partlyEmptyLoadFactor,
almostFullLoadFactor: real);
begin
inherited Create;
Initialize(numElements, elementSize);
osContainerSubject := TOmniContainerSubject.Create;
osInStackCount.Value := 0;
osPartlyEmptyCount := Round(numElements * partlyEmptyLoadFactor);
if osPartlyEmptyCount >= numElements then
osPartlyEmptyCount := numElements - 1;
osAlmostFullCount := Round(numElements * almostFullLoadFactor);
if osAlmostFullCount >= numElements then
osAlmostFullCount := numElements - 1;
end; { TOmniBoundedStack.Create }
destructor TOmniBoundedStack.Destroy;
begin
FreeAndNil(osContainerSubject);
inherited;
end; { TOmniBoundedStack.Destroy }
function TOmniBoundedStack.Pop(var value): boolean;
var
countAfter: integer;
begin
Result := inherited Pop(value);
if Result then begin
countAfter := osInStackCount.Decrement;
ContainerSubject.Notify(coiNotifyOnAllRemoves);
if countAfter <= osPartlyEmptyCount then
ContainerSubject.NotifyOnce(coiNotifyOnPartlyEmpty);
end;
end; { TOmniBoundedStack.Pop }
function TOmniBoundedStack.Push(const value): boolean;
var
countAfter: integer;
begin
Result := inherited Push(value);
if Result then begin
countAfter := osInStackCount.Increment;
ContainerSubject.Notify(coiNotifyOnAllInserts);
if countAfter >= osAlmostFullCount then
ContainerSubject.NotifyOnce(coiNotifyOnAlmostFull);
end;
end; { TOmniBoundedStack.Push }
{ TOmniBaseBoundedQueue }
constructor TOmniBaseBoundedQueue.Create;
begin
inherited Create;
{$IFNDEF OTL_HaveCmpx16b}
obqLock := CreateOmniCriticalSection;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedQueue.Create }
destructor TOmniBaseBoundedQueue.Destroy;
begin
FreeMem(obqDataBuffer);
FreeMem(obqPublicRingMem);
FreeMem(obqRecycleRingMem);
inherited;
end; { TOmniBaseBoundedQueue.Destroy }
procedure TOmniBaseBoundedQueue.Acquire; //inline
begin
{$IFNDEF OTL_HaveCmpx16b}
obqLock.Acquire;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedQueue.Acquire }
procedure TOmniBaseBoundedQueue.Release; //inline
begin
{$IFNDEF OTL_HaveCmpx16b}
obqLock.Release;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedQueue.Release }
function TOmniBaseBoundedQueue.Dequeue(var value): boolean;
var
Data: pointer;
begin
Acquire;
try
Data := RemoveLink(obqPublicRingBuffer);
Result := assigned(Data);
if not Result then
Exit;
Move(Data^, value, ElementSize);
InsertLink(Data, obqRecycleRingBuffer);
finally Release; end;
end; { TOmniBaseBoundedQueue.Dequeue }
procedure TOmniBaseBoundedQueue.Empty;
var
Data: pointer;
begin
Acquire;
try
repeat
Data := RemoveLink(obqPublicRingBuffer);
if assigned(Data) then
InsertLink(Data, obqRecycleRingBuffer)
else
break;
until false;
finally Release; end;
end; { TOmniBaseBoundedQueue.Empty }
function TOmniBaseBoundedQueue.Enqueue(const value): boolean;
var
Data: pointer;
begin
Acquire;
try
Data := RemoveLink(obqRecycleRingBuffer);
Result := assigned(Data);
if not Result then
Exit;
Move(value, Data^, ElementSize);
InsertLink(Data, obqPublicRingBuffer);
finally Release; end;
end; { TOmniBaseBoundedQueue.Enqueue }
procedure TOmniBaseBoundedQueue.Initialize(numElements, elementSize: integer);
var
dataBuffer : pointer;
n : integer;
ringBufferSize : cardinal;
roundedElementSize: integer;
begin
Assert(SizeOf(NativeInt) = SizeOf(pointer));
Assert(numElements > 0);
Assert(elementSize > 0);
obqNumElements := numElements;
obqElementSize := elementSize;
// calculate element size, round up to next aligned value
roundedElementSize := (elementSize + SizeOf(pointer) - 1) AND NOT (SizeOf(pointer) - 1);
// allocate obqDataBuffer
FreeMem(obqDataBuffer);
GetMem(obqDataBuffer, roundedElementSize * numElements + roundedElementSize + CASAlignment);
dataBuffer := RoundUpTo(obqDataBuffer, CASAlignment);
// allocate RingBuffers
ringBufferSize := SizeOf(TReferencedPtr) * (numElements + 1) +
SizeOf(TOmniRingBuffer) - SizeOf(TReferencedPtrBuffer);
FreeMem(obqPublicRingMem);
obqPublicRingMem := AllocMem(ringBufferSize + SizeOf(pointer) * 2);
obqPublicRingBuffer := RoundUpTo(obqPublicRingMem, SizeOf(pointer) * 2);
Assert(NativeInt(obqPublicRingBuffer) mod (SizeOf(pointer) * 2) = 0,
Format('TOmniBaseContainer: obcPublicRingBuffer is not %d-aligned', [SizeOf(pointer) * 2]));
FreeMem(obqRecycleRingMem);
obqRecycleRingMem := AllocMem(ringBufferSize + SizeOf(pointer) * 2);
obqRecycleRingBuffer := RoundUpTo(obqRecycleRingMem, SizeOf(pointer) * 2);
Assert(NativeInt(obqRecycleRingBuffer) mod (SizeOf(pointer) * 2) = 0,
Format('TOmniBaseContainer: obcRecycleRingBuffer is not %d-aligned', [SizeOf(pointer) * 2]));
// set obqPublicRingBuffer head
obqPublicRingBuffer.FirstIn.PData := @obqPublicRingBuffer.Buffer[0];
obqPublicRingBuffer.LastIn.PData := @obqPublicRingBuffer.Buffer[0];
obqPublicRingBuffer.StartBuffer := @obqPublicRingBuffer.Buffer[0];
obqPublicRingBuffer.EndBuffer := @obqPublicRingBuffer.Buffer[numElements];
// set obqRecycleRingBuffer head
obqRecycleRingBuffer.FirstIn.PData := @obqRecycleRingBuffer.Buffer[0];
obqRecycleRingBuffer.LastIn.PData := @obqRecycleRingBuffer.Buffer[numElements];
obqRecycleRingBuffer.StartBuffer := @obqRecycleRingBuffer.Buffer[0];
obqRecycleRingBuffer.EndBuffer := @obqRecycleRingBuffer.Buffer[numElements];
// format obqRecycleRingBuffer
for n := 0 to numElements do
obqRecycleRingBuffer.Buffer[n].PData := pointer(NativeInt(dataBuffer) + NativeInt(n * roundedElementSize));
MeasureExecutionTimes;
end; { TOmniBaseBoundedQueue.Initialize }
class procedure TOmniBaseBoundedQueue.InsertLink(const data: pointer; const ringBuffer:
POmniRingBuffer);
//FIFO buffer logic
//Insert link to queue model with idle/busy status bit
var
AtStartReference: NativeInt;
CurrentLastIn : PReferencedPtr;
CurrentReference: NativeInt;
NewLastIn : PReferencedPtr;
TaskCounter : NativeInt;
ThreadReference : NativeInt;
label
TryAgain;
begin
{$IFDEF OTL_HaveCmpx16b}
ThreadReference := OtlSync.GetThreadId + 1; //Reference.bit0 := 1
with ringBuffer^ do begin
TryAgain:
TaskCounter := obqTaskInsertLoops;
AtStartReference := LastIn.Reference OR 1; //Reference.bit0 := 1
repeat
CurrentReference := LastIn.Reference;
Dec(TaskCounter);
until (TaskCounter = 0) or (CurrentReference AND 1 = 0);
if ((CurrentReference AND 1 <> 0) and (AtStartReference <> CurrentReference))
or (not TInterlockedEx.CAS(CurrentReference, ThreadReference, LastIn.Reference))
then
goto TryAgain;
//Reference is set...
CurrentLastIn := LastIn.PData;
TInterlockedEx.CAS(CurrentLastIn.Reference, ThreadReference, CurrentLastIn.Reference);
if (ThreadReference <> LastIn.Reference) or
(not CAS(CurrentLastIn.PData, ThreadReference, data, ThreadReference, CurrentLastIn^))
then
goto TryAgain; //Calculate ringBuffer next LastIn address
NewLastIn := pointer(NativeInt(CurrentLastIn) + SizeOf(TReferencedPtr));
if NativeInt(NewLastIn) > NativeInt(EndBuffer) then
NewLastIn := StartBuffer;
//Try to exchange and clear Reference if task own reference
if not CAS(CurrentLastIn, ThreadReference, NewLastIn, 0, LastIn) then
goto TryAgain;
end;
{$ELSE ~OTL_HaveCmpx16b}
CurrentLastIn := ringBuffer^.LastIn.PData;
CurrentLastIn^.PData := data;
NewLastIn := pointer(NativeInt(CurrentLastIn) + SizeOf(TReferencedPtr));
if NativeInt(NewLastIn) > NativeInt(ringBuffer^.EndBuffer) then
NewLastIn := ringBuffer^.StartBuffer;
ringBuffer^.LastIn.PData := NewLastIn;
{$ENDIF ~OTL_HaveCmpx16b}
end; { TOmniBaseBoundedQueue.InsertLink }
function TOmniBaseBoundedQueue.IsEmpty: boolean;
begin
Result := (obqPublicRingBuffer.FirstIn.PData = obqPublicRingBuffer.LastIn.PData);
end; { TOmniBaseBoundedQueue.IsEmpty }
function TOmniBaseBoundedQueue.IsFull: boolean;
var
NewLastIn: pointer;
begin
Acquire;
try
NewLastIn := pointer(NativeInt(obqPublicRingBuffer.LastIn.PData) + SizeOf(TReferencedPtr));
if NativeInt(NewLastIn) > NativeInt(obqPublicRingBuffer.EndBuffer) then
NewLastIn := obqPublicRingBuffer.StartBuffer;
result := (NativeInt(NewLastIn) = NativeInt(obqPublicRingBuffer.LastIn.PData)) or
(obqRecycleRingBuffer.FirstIn.PData = obqRecycleRingBuffer.LastIn.PData);
finally Release; end;
end; { TOmniBaseBoundedQueue.IsFull }
procedure TOmniBaseBoundedQueue.MeasureExecutionTimes;
const
NumOfSamples = 10;
var
TimeTestField: array [0..1] of array [1..NumOfSamples] of int64;
function GetMinAndClear(routine, count: cardinal): int64;
var
m: cardinal;
n: integer;
x: integer;
begin
Result := 0;
for m := 1 to count do begin
x:= 1;
for n:= 2 to NumOfSamples do
if TimeTestField[routine, n] < TimeTestField[routine, x] then
x := n;
Inc(Result, TimeTestField[routine, x]);
TimeTestField[routine, x] := MaxLongInt;
end;
end; { GetMinAndClear }
var
{$IFDEF MSWINDOWS}
affinity : string;
{$ENDIF MSWINDOWS}
currElement: pointer;
n : integer;
begin { TOmniBaseBoundedQueue.MeasureExecutionTimes }