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Quick.Threads.pas
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Quick.Threads.pas
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{ ***************************************************************************
Copyright (c) 2016-2020 Kike Pérez
Unit : Quick.Threads
Description : Thread safe collections
Author : Kike Pérez
Version : 1.5
Created : 09/03/2018
Modified : 27/06/2020
This file is part of QuickLib: https://github.com/exilon/QuickLib
***************************************************************************
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*************************************************************************** }
unit Quick.Threads;
{$i QuickLib.inc}
interface
uses
Classes,
Types,
SysUtils,
DateUtils,
Quick.Commons,
//Quick.Chrono,
Quick.Value,
Quick.FaultControl,
{$IFNDEF FPC}
System.RTLConsts,
System.Generics.Collections,
System.SyncObjs;
{$ELSE}
RtlConsts,
Generics.Collections,
syncobjs;
{$ENDIF}
type
TThreadedQueueCS<T> = class
private
FQueue: array of T;
FQueueSize, FQueueOffset: Integer;
FQueueLock: TCriticalSection;
{$IFDEF FPC}
FQueueCondVar : TEventObject;
{$ELSE}
FQueueCondVar: TConditionVariableCS;
{$ENDIF}
FShutDown: Boolean;
FPushTimeout, FPopTimeout: Cardinal;
FTotalItemsPushed, FTotalItemsPopped: Cardinal;
public
constructor Create(AQueueDepth: Integer = 16; PushTimeout: Cardinal = INFINITE; PopTimeout: Cardinal = INFINITE);
destructor Destroy; override;
procedure Grow(ADelta: Integer);
function PushItem(const AItem: T): TWaitResult; overload;
function PushItem(const AItem: T; var AQueueSize: Integer): TWaitResult; overload;
function PopItem: T; overload;
function PopItem(var AQueueSize: Integer): T; overload;
function PopItem(var AQueueSize: Integer; var AItem: T): TWaitResult; overload;
function PopItem(var AItem: T): TWaitResult; overload;
procedure DoShutDown;
procedure Clear;
property QueueSize: Integer read FQueueSize;
property ShutDown: Boolean read FShutDown;
property TotalItemsPushed: Cardinal read FTotalItemsPushed;
property TotalItemsPopped: Cardinal read FTotalItemsPopped;
end;
TThreadedQueueList<T> = class
private
fQueue : TQueue<T>;
fQueueSize : Integer;
fQueueLock : TCriticalSection;
{$IFDEF FPC}
FQueueCondVar : TSimpleEvent;
{$ELSE}
FQueueCondVar: TConditionVariableCS;
{$ENDIF}
fShutDown : Boolean;
fPushTimeout : Cardinal;
fPopTimeout : Cardinal;
fTotalItemsPushed : Cardinal;
fTotalItemsPopped : Cardinal;
public
constructor Create(AQueueDepth: Integer = 10; PushTimeout: Cardinal = INFINITE; PopTimeout: Cardinal = INFINITE);
destructor Destroy; override;
procedure Grow(ADelta: Integer);
function PushItem(const AItem: T): TWaitResult; overload;
function PushItem(const AItem: T; var AQueueSize: Integer): TWaitResult; overload;
function PopItem: T; overload;
function PopItem(var AQueueSize: Integer): T; overload;
function PopItem(var AQueueSize: Integer; var AItem: T): TWaitResult; overload;
function PopItem(var AItem: T): TWaitResult; overload;
procedure DoShutDown;
property QueueSize: Integer read FQueueSize;
property ShutDown: Boolean read FShutDown;
property TotalItemsPushed: Cardinal read FTotalItemsPushed;
property TotalItemsPopped: Cardinal read FTotalItemsPopped;
end;
{$IFNDEF FPC}
TThreadObjectList<T: class> = class(TList<T>)
private
fList: TObjectList<T>;
fLock: TObject;
fDuplicates: TDuplicates;
function GetItem(aIndex : Integer) : T;
procedure SetItem(aIndex : Integer; aValue : T);
public
constructor Create(OwnedObjects : Boolean);
destructor Destroy; override;
property Items[Index : Integer] : T read GetItem write SetItem ; default;
procedure Add(const Item: T);
procedure Clear;
function LockList: TObjectList<T>;
procedure Remove(const Item: T); inline;
procedure RemoveItem(const Item: T; Direction: TDirection);
procedure UnlockList; inline;
property Duplicates: TDuplicates read fDuplicates write fDuplicates;
end;
{$ENDIF}
{$IFNDEF FPC}
TAnonExceptionProc = reference to procedure(aException : Exception);
TAnonProc = TProc;
{$ELSE}
TProc = procedure of object;
TAnonExceptionProc = procedure(aException : Exception) of object;
{$ENDIF}
TThreadWorkStatus = (wsRunning, wsDone, wsException);
TAdvThread = class(TThread)
private
fExecuteProc : TProc;
fExceptionProc : TAnonExceptionProc;
fTerminateProc : TProc;
fExecuteWithSync : Boolean;
fTerminateWithSync : Boolean;
procedure DoExecute;
procedure CallToTerminate;
protected
procedure DoTerminate; override;
public
constructor Create(aProc : TProc; aSynchronize : Boolean);
procedure OnException(aProc : TAnonExceptionProc);
procedure OnTerminate(aProc : TProc; aSynchronize : Boolean);
procedure Execute; override;
end;
IAnonymousThread = interface
procedure Start;
function OnException(aProc : TAnonExceptionProc) : IAnonymousThread;
function OnTerminate(aProc : TProc) : IAnonymousThread;
function OnTerminate_Sync(aProc : TProc) : IAnonymousThread;
end;
TAnonymousThread = class(TInterfacedObject,IAnonymousThread)
private
fThread : TAdvThread;
constructor Create(aProc : TProc; aSynchronize : Boolean);
public
class function Execute(aProc : TProc) : IAnonymousThread; overload;
class function Execute_Sync(aProc : TProc) : IAnonymousThread; overload;
procedure Start;
function OnException(aProc : TAnonExceptionProc) : IAnonymousThread;
function OnTerminate(aProc : TProc) : IAnonymousThread; overload;
function OnTerminate_Sync(aProc : TProc) : IAnonymousThread; overload;
end;
TParamValue = class
private
fName : string;
fValue : TFlexValue;
fOwned : Boolean;
public
constructor Create; overload;
constructor Create(const aName : string; aValue : TFlexValue; aOwnedValue : Boolean); overload;
constructor Create(const aName: string; aValue: TVarRec; aOwnedValue: Boolean); overload;
destructor Destroy; override;
property Name : string read fName write fName;
property Value : TFlexValue read fValue write fValue;
property Owned : Boolean read fOwned write fOwned;
end;
TParamList = TObjectList<TParamValue>;
TWorkTaskStatus = (wtsPending, wtsAssigned, wtsRunning, wtsDone, wtsException);
TScheduleMode = (smRunOnce, smRepeatMode);
TTimeMeasure = (tmDays, tmHours, tmMinutes, tmSeconds, tmMilliseconds);
ETaskAddError = class(Exception);
ETaskInitializationError = class(Exception);
ETaskExecutionError = class(Exception);
ETaskParamError = class(Exception);
ETaskSchedulerError = class(Exception);
ITask = interface
['{0182FD36-5A7C-4C00-BBF8-7CFB1E3F9BB1}']
function GetParam(aIndex : Integer) : TFlexValue; overload;
function GetParam(const aName : string) : TFlexValue; overload;
function GetParam2(aIndex : Integer) : PFlexValue;
procedure SetParam(aIndex : Integer; Value : TFlexValue); overload;
procedure SetParam(const aName : string; Value : TFlexValue); overload;
function TaskStatus : TWorkTaskStatus;
function GetNumWorker : Integer;
procedure SetNumWorker(Value : Integer);
function GetIdTask : Int64;
procedure SetIdTask(Value : Int64);
function GetResult : TFlexValue;
procedure SetResult(aValue : TFlexValue);
procedure DoExecute;
procedure DoException(aException : Exception);
procedure DoTerminate;
procedure Enable;
procedure Disable;
{$IFNDEF FPC}
property Param[index : Integer] : TFlexValue read GetParam write SetParam; default;
property Param[const Name : string] : TFlexValue read GetParam write SetParam; default;
{$ELSE}
property Param[index : Integer] : TFlexValue read GetParam write SetParam;
property ParamByName[const Name : string] : TFlexValue read GetParam write SetParam; default;
{$ENDIF}
property NumWorker : Integer read GetNumWorker write SetNumWorker;
property Result : TFlexValue read GetResult write SetResult;
property IdTask : Int64 read GetIdTask;
function Done : Boolean;
function Failed : Boolean;
function NumRetries : Integer;
function MaxRetries : Integer;
function LastException : Exception;
function CircuitBreaked : Boolean;
function IsEnabled : Boolean;
end;
{$IFNDEF FPC}
TTaskProc = reference to procedure(task : ITask);
TTaskExceptionProc = reference to procedure(task : ITask; aException : Exception);
TTaskRetryProc = reference to procedure(task : ITask; aException : Exception; var aStopRetries : Boolean);
{$ELSE}
TTaskProc = procedure(task : ITask) of object;
TTaskExceptionProc = procedure(task : ITask; aException : Exception) of object;
TTaskRetryProc = procedure(task : ITask; aException : Exception; var aStopRetries : Boolean) of object;
{$ENDIF}
IWorkTask = interface(ITask)
function OnInitialize(aTaskProc : TTaskProc) : IWorkTask;
function OnException(aTaskProc : TTaskExceptionProc) : IWorkTask;
function OnException_Sync(aTaskProc : TTaskExceptionProc) : IWorkTask;
function OnRetry(aTaskProc : TTaskRetryProc) : IWorkTask;
function OnTerminated(aTaskProc : TTaskProc) : IWorkTask;
function OnTerminated_Sync(aTaskProc : TTaskProc) : IWorkTask;
function Retry(aMaxRetries : Integer) : IWorkTask;
function RetryForever : IWorkTask;
function WaitAndRetry(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer) : IWorkTask; overload;
function WaitAndRetry(aWaitTimeArray : TArray<Integer>) : IWorkTask; overload;
function WaitAndRetry(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double) : IWorkTask; overload;
function WaitAndRetryForever(aWaitTimeBetweenRetriesMS : Integer) : IWorkTask; overload;
function WaitAndRetryForever(aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double) : IWorkTask; overload;
function SetParameter(const aName : string; aValue : TFlexValue; aOwned : Boolean) : IWorkTask; overload;
function SetParameter(const aName : string; aValue : TFlexValue) : IWorkTask; overload;
procedure Run;
end;
IScheduledTask = interface(ITask)
['{AE551638-ECDE-4F64-89BF-F07BFCB9C9F7}']
function OnInitialize(aTaskProc : TTaskProc) : IScheduledTask;
function OnException(aTaskProc : TTaskExceptionProc) : IScheduledTask;
function OnException_Sync(aTaskProc : TTaskExceptionProc) : IScheduledTask;
function OnRetry(aTaskProc : TTaskRetryProc) : IScheduledTask;
function OnTerminated(aTaskProc : TTaskProc) : IScheduledTask;
function OnTerminated_Sync(aTaskProc : TTaskProc) : IScheduledTask;
function OnExpired(aTaskProc : TTaskProc) : IScheduledTask;
function OnExpired_Sync(aTaskProc : TTaskProc) : IScheduledTask;
function Retry(aMaxRetries : Integer) : IScheduledTask;
function RetryForever : IScheduledTask;
function WaitAndRetry(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer) : IScheduledTask; overload;
function WaitAndRetry(aWaitTimeArray : TArray<Integer>) : IScheduledTask; overload;
function WaitAndRetry(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double) : IScheduledTask; overload;
function WaitAndRetryForever(aWaitTimeBetweenRetriesMS : Integer) : IScheduledTask; overload;
function WaitAndRetryForever(aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double) : IScheduledTask; overload;
function CheckSchedule : Boolean;
procedure DoExpire;
function GetTaskName : string;
function StartAt(aStartDate : TDateTime) : IScheduledTask;
function StartTodayAt(aHour, aMinute: Word; aSecond : Word = 0): IScheduledTask;
function StartTomorrowAt(aHour, aMinute: Word; aSecond : Word = 0): IScheduledTask;
function StartOnDayChange : IScheduledTask;
function StartNow : IScheduledTask;
function StartInMinutes(aMinutes : Word) : IScheduledTask;
function StartInSeconds(aSeconds : Word) : IScheduledTask;
procedure RunOnce;
procedure RepeatEvery(aInterval : Integer; aTimeMeasure : TTimeMeasure); overload;
procedure RepeatEvery(aInterval : Integer; aTimeMeasure : TTimeMeasure; aEndTime : TDateTime); overload;
procedure RepeatEvery(aInterval : Integer; aTimeMeasure : TTimeMeasure; aRepeatTimes : Integer); overload;
procedure RepeatEveryDay;
procedure RepeatEveryWeek;
function IsFinished : Boolean;
procedure Cancel;
property Name : string read GetTaskName;
function SetParameter(const aName : string; aValue : TFlexValue; aOwned : Boolean) : IScheduledTask; overload;
function SetParameter(const aName : string; aValue : TFlexValue) : IScheduledTask; overload;
end;
TTask = class(TInterfacedObject,ITask)
private
fIdTask : Int64;
fNumWorker : Integer;
fNumRetries : Integer;
fParamList : TParamList;
fInitializeProc : TTaskProc;
fExecuteProc : TTaskProc;
fExceptProc : TTaskExceptionProc;
fTerminateProc : TTaskProc;
fExpiredProc : TTaskProc;
fTaskStatus : TWorkTaskStatus;
fOwnedParams : Boolean;
fEnabled : Boolean;
fExecuteWithSync : Boolean;
fExceptionWithSync : Boolean;
fRetryProc : TTaskRetryProc;
fTerminateWithSync : Boolean;
fFaultControl : TFaultControl;
fCustomFaultPolicy : Boolean;
fResult : TFlexValue;
function GetParam(aIndex : Integer) : TFlexValue; overload;
function GetParam(const aName : string) : TFlexValue; overload;
function GetParam2(aIndex : Integer) : PFlexValue;
procedure SetParam(aIndex : Integer; Value : TFlexValue); overload;
procedure SetParam(const aName : string; Value : TFlexValue); overload;
procedure SetParam(const aName : string; Value : TFlexValue; aOwned : Boolean); overload;
procedure DoInitialize;
procedure DoExecute;
procedure DoException(aException : Exception);
procedure DoTerminate;
function GetNumWorker : Integer;
procedure SetNumWorker(Value : Integer);
function GetIdTask : Int64;
procedure SetIdTask(Value : Int64);
function GetResult : TFlexValue;
procedure SetResult(aValue : TFlexValue);
protected
property FaultControl : TFaultControl read fFaultControl write fFaultControl;
property CustomFaultPolicy : Boolean read fCustomFaultPolicy write fCustomFaultPolicy;
property ExecuteWithSync : Boolean read fExecuteWithSync write fExecuteWithSync;
property TerminateWithSync : Boolean read fTerminateWithSync write fTerminateWithSync;
property ExceptionWithSync : Boolean read fExceptionWithSync write fExceptionWithSync;
procedure DoRetry(aRaisedException : Exception; var vStopRetries : Boolean);
procedure SetFaultPolicy(aFaultPolicy : TFaultPolicy);
procedure SetRetryPolicy(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double); overload;
procedure SetRetryPolicy(aWaitTimeMSArray : TArray<Integer>); overload;
public
constructor Create(aParamArray : array of const; aOwnedParams : Boolean; aTaskProc : TTaskProc); virtual;
destructor Destroy; override;
property IdTask : Int64 read GetIdTask;
property OwnedParams : Boolean read fOwnedParams write fOwnedParams;
function IsEnabled : Boolean;
function TaskStatus : TWorkTaskStatus;
function Done : Boolean;
function Failed : Boolean;
function NumRetries : Integer;
function MaxRetries : Integer;
function LastException : Exception;
function CircuitBreaked : Boolean;
procedure Disable;
procedure Enable;
end;
TWorkTask = class(TTask,IWorkTask)
public
function OnInitialize(aTaskProc : TTaskProc) : IWorkTask;
function OnException(aTaskProc : TTaskExceptionProc) : IWorkTask; virtual;
function OnException_Sync(aTaskProc : TTaskExceptionProc) : IWorkTask; virtual;
function OnTerminated(aTaskProc : TTaskProc) : IWorkTask; virtual;
function OnTerminated_Sync(aTaskProc : TTaskProc) : IWorkTask; virtual;
function OnRetry(aTaskProc : TTaskRetryProc) : IWorkTask; virtual;
function Retry(aMaxRetries : Integer) : IWorkTask;
function RetryForever : IWorkTask;
function WaitAndRetry(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer) : IWorkTask; overload;
function WaitAndRetry(aWaitTimeArray : TArray<Integer>) : IWorkTask; overload;
function WaitAndRetry(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double) : IWorkTask; overload;
function WaitAndRetryForever(aWaitTimeBetweenRetriesMS : Integer) : IWorkTask; overload;
function WaitAndRetryForever(aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double) : IWorkTask; overload;
function SetParameter(const aName : string; aValue : TFlexValue; aOwned : Boolean) : IWorkTask; overload;
function SetParameter(const aName : string; aValue : TFlexValue) : IWorkTask; overload;
procedure Run; virtual;
end;
TTaskQueue = TThreadedQueueCS<IWorkTask>;
TScheduledTask = class(TTask,IScheduledTask)
private
fName : string;
fExecutionTimes : Integer;
fScheduleMode : TScheduleMode;
fTimeInterval : Integer;
fTimeMeasure : TTimeMeasure;
fStartDate : TDateTime;
fLastExecution : TDateTime;
fNextExecution : TDateTime;
fExpirationDate : TDateTime;
fExpirationTimes : Integer;
fFinished : Boolean;
fExpireWithSync: Boolean;
procedure ClearSchedule;
function CheckSchedule : Boolean;
procedure DoExpire;
function GetTaskName : string;
function GetCurrentSchedule: TPair<TTimeMeasure, Integer>;
protected
property ExpireWithSync : Boolean read fExpireWithSync write fExpireWithSync;
public
property Name : string read fName write fName;
function OnInitialize(aTaskProc : TTaskProc) : IScheduledTask;
property CurrentSchedule : TPair<TTimeMeasure, Integer> read GetCurrentSchedule;
function OnException(aTaskProc : TTaskExceptionProc) : IScheduledTask; virtual;
function OnException_Sync(aTaskProc : TTaskExceptionProc) : IScheduledTask; virtual;
function OnRetry(aTaskProc : TTaskRetryProc) : IScheduledTask; virtual;
function OnTerminated(aTaskProc : TTaskProc) : IScheduledTask; virtual;
function OnTerminated_Sync(aTaskProc : TTaskProc) : IScheduledTask; virtual;
function OnExpired(aTaskProc : TTaskProc) : IScheduledTask; virtual;
function OnExpired_Sync(aTaskProc : TTaskProc) : IScheduledTask; virtual;
function StartAt(aStartDate : TDateTime) : IScheduledTask;
function StartTodayAt(aHour, aMinute: Word; aSecond : Word = 0): IScheduledTask;
function StartTomorrowAt(aHour, aMinute: Word; aSecond : Word = 0): IScheduledTask;
function StartOnDayChange : IScheduledTask;
function StartNow : IScheduledTask;
function StartInMinutes(aMinutes : Word) : IScheduledTask;
function StartInSeconds(aSeconds : Word) : IScheduledTask;
procedure RunOnce;
procedure RepeatEvery(aInterval : Integer; aTimeMeasure : TTimeMeasure); overload;
procedure RepeatEvery(aInterval : Integer; aTimeMeasure : TTimeMeasure; aEndTime : TDateTime); overload;
procedure RepeatEvery(aInterval : Integer; aTimeMeasure : TTimeMeasure; aRepeatTimes : Integer); overload;
procedure RepeatEveryDay;
procedure RepeatEveryWeek;
function Retry(aMaxRetries : Integer) : IScheduledTask;
function RetryForever : IScheduledTask;
function WaitAndRetry(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer) : IScheduledTask; overload;
function WaitAndRetry(aWaitTimeArray : TArray<Integer>) : IScheduledTask; overload;
function WaitAndRetry(aMaxRetries, aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double) : IScheduledTask; overload;
function WaitAndRetryForever(aWaitTimeBetweenRetriesMS : Integer) : IScheduledTask; overload;
function WaitAndRetryForever(aWaitTimeBetweenRetriesMS : Integer; aWaitTimeMultiplierFactor : Double) : IScheduledTask; overload;
function SetParameter(const aName : string; aValue : TFlexValue; aOwned : Boolean) : IScheduledTask; overload;
function SetParameter(const aName : string; aValue : TFlexValue) : IScheduledTask; overload;
function IsFinished : Boolean;
procedure Cancel;
end;
TWorkerStatus = (wsIdle, wsWorking, wsSuspended);
TWorker = class(TThread)
protected
fStatus : TWorkerStatus;
fCurrentTask : ITask;
fDefaultFaultPolicy : TFaultPolicy;
procedure ExecuteTask;
procedure TerminateTask;
public
constructor Create;
destructor Destroy; override;
property Status : TWorkerStatus read fStatus;
procedure SetFaultPolicy(aTask : TTask);
procedure Execute; override;
end;
TSimpleWorker = class(TWorker)
public
constructor Create(aTask : ITask);
procedure Execute; override;
end;
TQueueWorker = class(TWorker)
private
fCurrentIdTask : Integer;
fNumWorker : Integer;
fTaskQueue : TTaskQueue;
public
constructor Create(aNumWorker : Integer; aTaskQueue : TTaskQueue);
property NumWorker : Integer read fNumWorker;
procedure Execute; override;
end;
TScheduledWorker = class(TWorker)
private
procedure ExpireTask;
public
constructor Create(aNumWorker : Integer; aScheduledTask: IScheduledTask);
procedure Execute; override;
end;
TWorkerPool = TObjectList<TWorker>;
TRunTask = class
public
class function Execute(aTaskProc: TTaskProc): IWorkTask; overload;
class function Execute(aParamArray: array of const; aOwnedParams: Boolean; aTaskProc: TTaskProc): IWorkTask; overload;
class function Execute_Sync(aTaskProc: TTaskProc): IWorkTask; overload;
class function Execute_Sync(aParamArray: array of const; aOwnedParams: Boolean; aTaskProc: TTaskProc): IWorkTask; overload;
end;
TBackgroundTasks = class
private
fMaxQueue : Integer;
fWorkerPool : TWorkerPool;
fConcurrentWorkers : Integer;
fInsertTimeout : Cardinal;
fExtractTimeout : Cardinal;
fTaskQueue : TTaskQueue;
fNumPushedTasks : Int64;
function GetTaskQueue : Cardinal;
public
constructor Create(aConcurrentWorkers : Integer; aInitialQueueSize : Integer = 100);
destructor Destroy; override;
property MaxQueue : Integer read fMaxQueue write fMaxQueue;
property InsertTimeout : Cardinal read fInsertTimeout write fInsertTimeout;
property ExtractTimeout : Cardinal read fExtractTimeout write fExtractTimeout;
property TaskQueued : Cardinal read GetTaskQueue;
property NumPushedTasks : Int64 read fNumPushedTasks;
property ConcurrentWorkers : Integer read fConcurrentWorkers write fConcurrentWorkers;
function AddTask(aTaskProc : TTaskProc) : IWorkTask; overload;
function AddTask_Sync(aTaskProc : TTaskProc) : IWorkTask; overload;
function AddTask(aParamArray : array of const; aOwnedParams : Boolean; aTaskProc : TTaskProc) : IWorkTask; overload;
function AddTask_Sync(aParamArray : array of const; aOwnedParams : Boolean; aTaskProc : TTaskProc) : IWorkTask; overload;
procedure Start;
procedure CancelAll;
end;
TScheduledTaskList = TList<IScheduledTask>;
TScheduler = class(TThread)
private
fListLock : TCriticalSection;
fCondVar : TSimpleEvent;
fTaskList : TScheduledTaskList;
fRemoveTaskAfterExpiration : Boolean;
public
constructor Create(aTaskList : TScheduledTaskList);
destructor Destroy; override;
property RemoveTaskAfterExpiration : Boolean read fRemoveTaskAfterExpiration write fRemoveTaskAfterExpiration;
procedure Execute; override;
function Add(aTask : TScheduledTask) : Integer;
function Get(aIdTask : Int64) : IScheduledTask; overload;
function Get(const aTaskName : string) : IScheduledTask; overload;
end;
TScheduledTasks = class
private
fTaskList : TScheduledTaskList;
fScheduler : TScheduler;
fNumPushedTasks : Int64;
fRemoveTaskAfterExpiration : Boolean;
fIsStarted : Boolean;
fFaultPolicy : TFaultPolicy;
public
constructor Create;
destructor Destroy; override;
property NumPushedTasks : Int64 read fNumPushedTasks;
property RemoveTaskAfterExpiration : Boolean read fRemoveTaskAfterExpiration write fRemoveTaskAfterExpiration;
property IsStarted : Boolean read fIsStarted;
property FaultPolicy : TFaultPolicy read fFaultPolicy write fFaultPolicy;
function AddTask(const aTaskName : string; aTaskProc : TTaskProc) : IScheduledTask; overload;
function AddTask_Sync(const aTaskName : string; aTaskProc : TTaskProc) : IScheduledTask; overload;
function AddTask(const aTaskName : string; aParamArray : array of const; aOwnedParams : Boolean; aTaskProc : TTaskProc) : IScheduledTask; overload;
function AddTask_Sync(const aTaskName : string; aParamArray : array of const; aOwnedParams : Boolean; aTaskProc : TTaskProc) : IScheduledTask; overload;
function GetTask(aIdTask : Int64) : IScheduledTask; overload;
function GetTask(const aTaskName : string) : IScheduledTask; overload;
procedure Start;
procedure Stop;
end;
implementation
{ TThreadedQueueCS<T> }
procedure TThreadedQueueCS<T>.Clear;
var
obj : T;
begin
FQueueLock.Enter;
try
for obj in FQueue do
begin
if TypeInfo(T) = TypeInfo(TObject) then PObject(@obj){$IFNDEF FPC}.DisposeOf;{$ELSE}.Free;{$ENDIF}
end;
SetLength(FQueue,0);
finally
FQueueLock.Leave;
end;
{$IFDEF FPC}
FQueueCondVar.SetEvent;
{$ELSE}
FQueueCondVar.ReleaseAll;
{$ENDIF}
end;
constructor TThreadedQueueCS<T>.Create(AQueueDepth: Integer = 16; PushTimeout: Cardinal = INFINITE; PopTimeout: Cardinal = INFINITE);
begin
inherited Create;
if AQueueDepth < 10 then raise Exception.Create('QueueDepth will be 10 or greater value');
SetLength(FQueue, AQueueDepth);
FQueueLock := TCriticalSection.Create;
{$IFDEF FPC}
FQueueCondVar := TEventObject.Create(nil, True, False, 'TQCS');
{$ELSE}
FQueueCondVar := TConditionVariableCS.Create;
{$ENDIF}
FPushTimeout := PushTimeout;
FPopTimeout := PopTimeout;
end;
destructor TThreadedQueueCS<T>.Destroy;
begin
DoShutDown;
FQueueLock.Free;
FQueueCondVar.Free;
inherited;
end;
procedure TThreadedQueueCS<T>.Grow(ADelta: Integer);
begin
FQueueLock.Enter;
try
SetLength(FQueue, Length(FQueue) + ADelta);
finally
FQueueLock.Leave;
end;
{$IFDEF FPC}
FQueueCondVar.SetEvent;
{$ELSE}
FQueueCondVar.ReleaseAll;
{$ENDIF}
end;
function TThreadedQueueCS<T>.PopItem: T;
var
LQueueSize: Integer;
begin
PopItem(LQueueSize, Result);
end;
function TThreadedQueueCS<T>.PopItem(var AQueueSize: Integer; var AItem: T): TWaitResult;
begin
AItem := Default(T);
FQueueLock.Enter;
try
Result := wrSignaled;
while (Result = wrSignaled) and (FQueueSize = 0) and not FShutDown do
begin
{$IFDEF FPC}
Result := FQueueCondVar.WaitFor(FPopTimeout);
{$ELSE}
Result := FQueueCondVar.WaitFor(FQueueLock, FPopTimeout);
{$ENDIF}
end;
if (FShutDown and (FQueueSize = 0)) or (Result <> wrSignaled) then Exit;
AItem := FQueue[FQueueOffset];
FQueue[FQueueOffset] := Default(T);
if FQueueSize = Length(FQueue) then
begin
{$IFDEF FPC}
FQueueCondVar.SetEvent;
{$ELSE}
FQueueCondVar.ReleaseAll;
{$ENDIF}
end;
Dec(FQueueSize);
Inc(FQueueOffset);
Inc(FTotalItemsPopped);
if FQueueOffset = Length(FQueue) then FQueueOffset := 0;
finally
AQueueSize := FQueueSize;
FQueueLock.Leave;
end;
end;
function TThreadedQueueCS<T>.PopItem(var AItem: T): TWaitResult;
var
LQueueSize: Integer;
begin
Result := PopItem(LQueueSize, AItem);
end;
function TThreadedQueueCS<T>.PopItem(var AQueueSize: Integer): T;
begin
PopItem(AQueueSize, Result);
end;
function TThreadedQueueCS<T>.PushItem(const AItem: T): TWaitResult;
var
LQueueSize: Integer;
begin
Result := PushItem(AItem, LQueueSize);
end;
function TThreadedQueueCS<T>.PushItem(const AItem: T; var AQueueSize: Integer): TWaitResult;
begin
FQueueLock.Enter;
try
if FQueueSize >= High(FQueue) then
begin
if FQueueSize < 1024 then Grow(FQueueSize)
else Grow(FQueueSize Div 2);
end;
Result := wrSignaled;
while (Result = wrSignaled) and (FQueueSize = Length(FQueue)) and not FShutDown do
begin
{$IFDEF FPC}
Result := FQueueCondVar.WaitFor(FPushTimeout);
{$ELSE}
Result := FQueueCondVar.WaitFor(FQueueLock, FPushTimeout);
{$ENDIF}
end;
if FShutDown or (Result <> wrSignaled) then Exit;
if FQueueSize = 0 then
begin
{$IFDEF FPC}
FQueueCondVar.SetEvent;
{$ELSE}
FQueueCondVar.ReleaseAll;
{$ENDIF}
end;
FQueue[(FQueueOffset + FQueueSize) mod Length(FQueue)] := AItem;
Inc(FQueueSize);
Inc(FTotalItemsPushed);
finally
AQueueSize := FQueueSize;
FQueueLock.Leave;
end;
end;
procedure TThreadedQueueCS<T>.DoShutDown;
begin
FShutDown := True;
{$IFDEF FPC}
FQueueCondVar.SetEvent;
{$ELSE}
FQueueCondVar.ReleaseAll;
{$ENDIF}
end;
{ TThreadedQueueList<T> }
constructor TThreadedQueueList<T>.Create(AQueueDepth: Integer = 10; PushTimeout: Cardinal = INFINITE; PopTimeout: Cardinal = INFINITE);
begin
inherited Create;
fQueue := TQueue<T>.Create;
fQueue.Capacity := AQueueDepth;
fQueueSize := 0;
fQueueLock := TCriticalSection.Create;
{$IFDEF FPC}
FQueueCondVar := TSimpleEvent.Create; //TEventObject.Create(nil, False, False, 'TQL');
{$ELSE}
fQueueCondVar := TConditionVariableCS.Create;
{$ENDIF}
fPushTimeout := PushTimeout;
fPopTimeout := PopTimeout;
end;
destructor TThreadedQueueList<T>.Destroy;
begin
DoShutDown;
fQueueLock.Free;
fQueueCondVar.Free;
fQueue.Free;
inherited;
end;
procedure TThreadedQueueList<T>.Grow(ADelta: Integer);
begin
fQueueLock.Enter;
try
fQueue.Capacity := fQueue.Capacity + ADelta;
finally
fQueueLock.Leave;
end;
{$IFDEF FPC}
FQueueCondVar.SetEvent;
{$ELSE}
FQueueCondVar.ReleaseAll;
{$ENDIF}
end;
function TThreadedQueueList<T>.PopItem: T;
var
LQueueSize: Integer;
begin
PopItem(LQueueSize, Result);
end;
{$IFDEF FPC}
function TThreadedQueueList<T>.PopItem(var AQueueSize: Integer; var AItem: T): TWaitResult;
//var
//crono : TChronometer;
begin
AItem := Default(T);
//crono := TChronometer.Create(False);
try
Result := wrSignaled;
//writeln('popitem');
//crono.Start;
while (Result = wrSignaled) and (fQueueSize = 0) and not fShutDown do
begin
//crono.Start;
Result := FQueueCondVar.WaitFor(FPopTimeout);
//crono.Stop;
//writeln('in: ' + crono.ElapsedTime);
//if result = twaitresult.wrError then result := twaitresult.wrError;
end;
//crono.Stop;
//writeln('out: ' + crono.ElapsedTime);
fQueueLock.Enter;
try
if (FShutDown and (fQueueSize = 0)) or (Result <> wrSignaled) then Exit;
AItem := fQueue.Extract;
Dec(FQueueSize);
Inc(fTotalItemsPopped);
finally
fQueueLock.Leave;
end;
finally
AQueueSize := fQueueSize;
end;
end;
{$ELSE}
function TThreadedQueueList<T>.PopItem(var AQueueSize: Integer; var AItem: T): TWaitResult;
begin
AItem := Default(T);
fQueueLock.Enter;
try
Result := wrSignaled;
while (Result = wrSignaled) and (fQueueSize = 0) and not fShutDown do
begin
Result := FQueueCondVar.WaitFor(FQueueLock, FPopTimeout);
end;
if (FShutDown and (fQueueSize = 0)) or (Result <> wrSignaled) then Exit;
AItem := fQueue.Extract;
if fQueueSize = fQueue.Count then
begin
FQueueCondVar.ReleaseAll;
end;
Dec(FQueueSize);
Inc(fTotalItemsPopped);
finally
AQueueSize := fQueueSize;
fQueueLock.Leave;
end;
end;
{$ENDIF}
function TThreadedQueueList<T>.PopItem(var AItem: T): TWaitResult;
var
LQueueSize: Integer;
begin
Result := PopItem(LQueueSize, AItem);
end;
function TThreadedQueueList<T>.PopItem(var AQueueSize: Integer): T;
begin
PopItem(AQueueSize, Result);
end;
function TThreadedQueueList<T>.PushItem(const AItem: T): TWaitResult;
var
LQueueSize: Integer;
begin
Result := PushItem(AItem, LQueueSize);
end;
{$IFDEF FPC}
function TThreadedQueueList<T>.PushItem(const AItem: T; var AQueueSize: Integer): TWaitResult;
begin
FQueueLock.Enter;
try
if FQueueSize >= fQueue.Count then Grow(10);
Result := wrSignaled;
//while (Result = wrSignaled) and (fQueueSize = fQueue.Count) and not fShutDown do
//begin
// Result := fQueueCondVar.WaitFor(fQueueLock, fPushTimeout);
//end;
if fShutDown or (Result <> wrSignaled) then Exit;
//if fQueueSize = 0 then
//begin
// FQueueCondVar.SetEvent;
//end;
fQueue.Enqueue(AItem);
Inc(FQueueSize);
Inc(fTotalItemsPushed);
finally
AQueueSize := fQueueSize;
FQueueLock.Leave;
//FQueueCondVar.SetEvent;
end;
end;
{$ELSE}
function TThreadedQueueList<T>.PushItem(const AItem: T; var AQueueSize: Integer): TWaitResult;
begin
FQueueLock.Enter;
try
Result := wrSignaled;
//while (Result = wrSignaled) and (fQueueSize = fQueue.Count) and not fShutDown do
//begin
// Result := fQueueCondVar.WaitFor(fQueueLock, fPushTimeout);
//end;
if fShutDown or (Result <> wrSignaled) then Exit;
if fQueueSize = 0 then FQueueCondVar.ReleaseAll;
fQueue.Enqueue(AItem);
Inc(FQueueSize);
Inc(fTotalItemsPushed);
finally
AQueueSize := fQueueSize;
FQueueLock.Leave;
end;
end;
{$ENDIF}
procedure TThreadedQueueList<T>.DoShutDown;
begin
fShutDown := True;
{$IFDEF FPC}
FQueueCondVar.SetEvent;
{$ELSE}
FQueueCondVar.ReleaseAll;
{$ENDIF}
end;
{$IFNDEF FPC}
{ TThreadObjectList<T> }
procedure TThreadObjectList<T>.Add(const Item: T);
begin
LockList;
try
if (Duplicates = dupAccept) or (fList.IndexOf(Item) = -1) then fList.Add(Item)
else if Duplicates = dupError then raise EListError.CreateFmt(SDuplicateItem, [fList.ItemValue(Item)]);
finally
UnlockList;
end;
end;
procedure TThreadObjectList<T>.Clear;
begin
LockList;
try
fList.Clear;
finally
UnlockList;
end;
end;
constructor TThreadObjectList<T>.Create(OwnedObjects : Boolean);
begin
inherited Create;
fLock := TObject.Create;
fList := TObjectList<T>.Create;