tnblib/TnbQueue_8h_source.html

#pragma once

#include "TnbVector.h"


//TNB Library

namespace TNB

{


template<typename TYP>

struct IQueueT

{

    virtual ~IQueueT(void)

    {

    }


    virtual size_t AddElements(size_t size, const TYP* P = NULL) = 0;


    virtual INDEX Add(const TYP& t) = 0;


    virtual size_t TakeElements(size_t size, TYP* P = NULL) = 0;


    virtual TYP Take(void)

    {

        TYP t;

        if ( TakeElements(1, &t) == 1 )

        {

            return t;

        }

        ASSERT0( false, "IQueue::Take()", "キューが空の時取得操作されました。" );

        throw CEmptyException();

    }


    virtual size_t EraseElements(size_t size)

    {

        return TakeElements(size);

    }


    CVectorT<TYP> TakeoutToVector(size_t size)

    {

        CVectorT<TYP> v;

        bool boRc = (TakeElements(size, v.GetBuffer(size)) == size);

        v.ReleaseBuffer();

        if ( ! boRc )

        {

            v.Invalid();

        }

        return v;

    }

};


template<typename TYP, bool ISI = false, class INV = TYP>

class CRingQueueT : public ICollectionMidT<TYP>, public IQueueT<TYP>

{

    DEFSUPER(ICollectionMidT<TYP>);

public:


    explicit CRingQueueT(size_t size = 10000) : _super(), m_hptHead(new THead(size))

    {

    }


    CRingQueueT(const CRingQueueT& queue) : _super(), m_hptHead(queue.m_hptHead)

    {

    }


    virtual ~CRingQueueT(void)

    {

        m_hptHead.Null();

    }


    CRingQueueT& operator=(const CRingQueueT& other)

    {

        EXCLUSIVE(&other);

        m_hptHead = other.m_hptHead;

        return *this;

    }


    virtual bool Lock(DWORD dwTime = INFINITE) const

    {

        return m_syncFunc.Lock();

    }


    virtual void Unlock(void) const

    {

        m_syncFunc.Unlock();

    }


    void SetQueueSize(size_t size)

    {

        m_hptHead = new THead(size);

        ASSERT( GetSize() == 0 );

    }


    size_t GetQueueSize(void) const

    {

        return m_hptHead->bufferSize;

    }


    virtual size_t GetSize(void) const

    {

        return m_hptHead->dataSize;

    }


    bool IsFull(void) const

    {

        if ( GetQueueSize() <= GetSize() )

        {

            return true;

        }

        return false;

    }


    virtual INDEX Add(const TYP& t)

    {

        size_t r = GetSize();

        return (AddElements(1, &t) == 1) ? r : INVALID_INDEX;

    }


    virtual bool Remove(INDEX index)

    {

        if ( IsInRange(index) )

        {

            m_Separate();

            THead* H = *m_hptHead.ReferP();

            size_t sz = H->dataSize;

            INDEX ri = H->readIndex;

            size_t bs   = H->bufferSize;

            loop ( i, sz -index - 1 )

            {

                INDEX dst = (ri + i + index) % bs;

                INDEX src = (ri + i + index + 1) % bs;

                H->pBuffer[dst] = H->pBuffer[src];

            }

            if ( ISI )

            {

                INDEX dst = (ri + sz - 1) % bs;

                H->pBuffer[dst] = INV();

            }

            (H->dataSize)--;

            return true;

        }

        return false;

    }


    virtual bool RemoveAll(void)

    {

        EXCLUSIVE(this);

        size_t l = m_hptHead->dataSize;

        if ( l > 0 )

        {

            TakeElements(l);

            ASSERT( m_hptHead->dataSize == 0 );

        }

        return true;

    }


    virtual size_t AddElements(size_t size, const TYP* P = NULL)

    {

        EXCLUSIVE(this);

        m_Separate();

        THead* H = *m_hptHead.ReferP();

        if ( (H->dataSize) + size > (H->bufferSize) )

        {

            //それ以上になるならエラー

            return INVALID_SIZE;

        }

        H->syncObj.Lock();

        size_t bs   = H->bufferSize;

        INDEX tmp = (H->readIndex + H->dataSize) % bs;

        if ( P != NULL )

        {

            loop ( i, size )

            {

                H->pBuffer[tmp++] = *P++;

                if ( tmp >= bs )

                {

                    tmp -= bs;

                }

            }

        }

        else

        {

            loop ( i, size )

            {

                H->pBuffer[tmp++] = TYP();

                if ( tmp >= bs )

                {

                    tmp -= bs;

                }

            }

        }

        (H->dataSize) += size;

        H->syncObj.Unlock();

        return size;

    }


    virtual size_t TakeElements(size_t size, TYP* P = NULL)

    {

        EXCLUSIVE(this);

        m_Separate();

        THead* H = *m_hptHead.ReferP();

        H->syncObj.Lock();

        if ( (H->dataSize) < size )

        {

            //キューにその長さの情報がないのでエラー

            H->syncObj.Unlock();

            return INVALID_SIZE;

        }

        size_t bs = H->bufferSize;

        if ( P != NULL || ISI )

        {

            INDEX tmp = H->readIndex;

            loop ( i, size )

            {

                if ( P != NULL )

                {

                    *P++ = H->pBuffer[tmp];

                }

                if ( ISI )

                {

                    H->pBuffer[tmp] = INV();

                }

                if ( ++tmp >= bs )

                {

                    tmp -= bs;

                }

            }

        }

        (H->readIndex) += size;

        (H->readIndex) %= bs;

        (H->dataSize) -= size;

        H->syncObj.Unlock();

        return size;

    }


    size_t GetFreeSize(void) const

    {

        return (m_hptHead->bufferSize) - (m_hptHead->dataSize);

    }


protected:


    struct THead

    {

        CSyncSection    syncObj;

        CSyncEvent      syncTaking;

        CSyncEvent      syncAdding;

        size_t          bufferSize;

        size_t          dataSize;

        INDEX           readIndex;

        TYP*            pBuffer;

        THead(size_t size) : readIndex(0), bufferSize(size), dataSize(0)

        {

            pBuffer = new TYP[size];

        }

        ~THead(void)

        {

            if ( pBuffer != NULL )

            {

                delete[] pBuffer;

            }

        }

    };


    CPointerHandleT<THead>  m_hptHead;


private:


    CSyncSection            m_syncFunc;


    void m_Separate(void)

    {

        if ( m_hptHead.GetReferCount() > 1 )

        {

            size_t size = m_hptHead->bufferSize;

            THead* pNew = new THead(size);

            if ( (m_hptHead->dataSize) > 0 )

            {

                pNew->dataSize  = m_hptHead->dataSize;

                pNew->readIndex = m_hptHead->readIndex;

                TYP* P1 = pNew->pBuffer;

                TYP* P2 = m_hptHead->pBuffer;

                while ( (size--) > 0 )

                {

                    *P1++ = *P2++;

                }

            }

            m_hptHead = pNew;

        }

    }


    virtual const TYP* m_GetConstPointer(INDEX index) const

    {

        if ( IsInRange(index) )

        {

            INDEX tmp;

            THead* H = *m_hptHead.ReferP();

            tmp = (H->readIndex) + index;

            tmp %= (H->bufferSize);

            return &(H->pBuffer[tmp]);

        }

        return NULL;

    }


    virtual TYP* m_GetPointer(INDEX index)

    {

        if ( IsInRange(index) )

        {

            m_Separate();

            INDEX tmp;

            THead* H = *m_hptHead.ReferP();

            tmp = (H->readIndex) + index;

            tmp %= (H->bufferSize);

            return &(H->pBuffer[tmp]);

        }

        return NULL;

    }


    friend class CQueueTest;

};


template<typename TYP, bool ISI = false, class INV = TYP>

class CBlockingQueueT : public CRingQueueT<TYP, ISI, INV>

{

    typedef CRingQueueT<TYP, ISI, INV> _super;

    DEFSUPER(_super);

public:


    explicit CBlockingQueueT(size_t size = 10000) : _super(size)

    {

    }


    virtual ~CBlockingQueueT(void)

    {

    }


    virtual size_t TakeElements(size_t size, TYP* P = NULL)

    {

        if ( _super::TakeElements(size, P) != size )

        {

            //なかった

            while ( true )

            {

                m_hptHead->syncAdding.Lock();

                if ( _super::TakeElements(size, P) == size )

                {

                    break;

                }

            }

        }

        m_hptHead->syncTaking.Pulse();

        return size;

    }


    virtual size_t AddElements(size_t size, const TYP* P = NULL)

    {

        if ( _super::AddElements(size, P) != size )

        {

            //追加できなかった

            loop ( i, size )

            {

                while ( true )

                {

                    if ( _super::AddElements(1, P) == 1 )

                    {

                        break;

                    }

                    ::Sleep(10);

                }

                m_hptHead->syncAdding.Pulse();

                P++;

            }

        }

        m_hptHead->syncAdding.Pulse();

        return size;

    }

};


typedef TNB::CRingQueueT<BYTE> CByteQueue;


typedef TNB::CBlockingQueueT<BYTE> CByteBlockingQueue;


typedef TNB::CRingQueueT<DWORD> CDwordQueue;


typedef TNB::CRingQueueT<CStr,true> CStrQueue;


typedef TNB::CBlockingQueueT<CStr,true> CStrBlockingQueue;


#ifdef __AFX_H__


    typedef TNB::CRingQueueT<CString,true> CStringQueue;


#endif


}; // TNB

loop
#define loop(VAR, CNT)
loop構文.
Definition: TnbDef.h:343

TnbVector.h
配列型情報管理関係のヘッダ

TNB::CBlockingQueueT
ブロック付キュー型情報管理テンプレート
Definition: TnbQueue.h:559

TNB::CBlockingQueueT::~CBlockingQueueT
virtual ~CBlockingQueueT(void)
デストラクタ
Definition: TnbQueue.h:577

TNB::CBlockingQueueT::CBlockingQueueT
CBlockingQueueT(size_t size=10000)
コンストラクタ
Definition: TnbQueue.h:570

TNB::CBlockingQueueT::TakeElements
virtual size_t TakeElements(size_t size, TYP *P=NULL)
[取得] 複数要素取り出し.
Definition: TnbQueue.h:589

TNB::CBlockingQueueT::AddElements
virtual size_t AddElements(size_t size, const TYP *P=NULL)
[追加] 複数要素追加.
Definition: TnbQueue.h:615

TNB::CEmptyException
取得要素(空き)無し例外
Definition: TnbException.h:107

TNB::CPointerHandleBaseT::GetReferCount
int GetReferCount(void) const
[取得] 参照数取得.
Definition: TnbPointerHandle.h:221

TNB::CPointerHandleBaseT::ReferP
TYP * ReferP(void)
[取得] TYPのポインタ取得.
Definition: TnbPointerHandle.h:242

TNB::CPointerHandleBaseT::Null
void Null(void)
[設定] 開放.
Definition: TnbPointerHandle.h:229

TNB::CPointerHandleT< THead >

TNB::CRingQueueT
リング式キュー型情報管理テンプレート
Definition: TnbQueue.h:160

TNB::CRingQueueT::GetSize
virtual size_t GetSize(void) const
[取得] 要素数取得
Definition: TnbQueue.h:249

TNB::CRingQueueT::CQueueTest
friend class CQueueTest
フレンドクラス宣言
Definition: TnbQueue.h:535

TNB::CRingQueueT::SetQueueSize
void SetQueueSize(size_t size)
[設定] リングキューサイズ指定.
Definition: TnbQueue.h:230

TNB::CRingQueueT::CRingQueueT
CRingQueueT(size_t size=10000)
コンストラクタ
Definition: TnbQueue.h:170

TNB::CRingQueueT::Remove
virtual bool Remove(INDEX index)
[削除] 要素一つ削除.
Definition: TnbQueue.h:291

TNB::CRingQueueT::CRingQueueT
CRingQueueT(const CRingQueueT &queue)
コピーコンストラクタ
Definition: TnbQueue.h:179

TNB::CRingQueueT::Lock
virtual bool Lock(DWORD dwTime=INFINITE) const
[排他] ロック
Definition: TnbQueue.h:213

TNB::CRingQueueT::operator=
CRingQueueT & operator=(const CRingQueueT &other)
[代入] コピーオペレータ
Definition: TnbQueue.h:198

TNB::CRingQueueT::IsFull
bool IsFull(void) const
[確認] 満タン？
Definition: TnbQueue.h:259

TNB::CRingQueueT::TakeElements
virtual size_t TakeElements(size_t size, TYP *P=NULL)
[取得] 複数要素取り出し.
Definition: TnbQueue.h:392

TNB::CRingQueueT::RemoveAll
virtual bool RemoveAll(void)
[削除] データ全削除.
Definition: TnbQueue.h:322

TNB::CRingQueueT::AddElements
virtual size_t AddElements(size_t size, const TYP *P=NULL)
[追加] 複数要素追加.
Definition: TnbQueue.h:343

TNB::CRingQueueT::GetFreeSize
size_t GetFreeSize(void) const
[取得] 格納可能数取得.
Definition: TnbQueue.h:436

TNB::CRingQueueT::Add
virtual INDEX Add(const TYP &t)
[追加] 要素追加.
Definition: TnbQueue.h:277

TNB::CRingQueueT::m_hptHead
CPointerHandleT< THead > m_hptHead
管理用ヘッダのポインタハンドル
Definition: TnbQueue.h:468

TNB::CRingQueueT::Unlock
virtual void Unlock(void) const
[排他] アンロック
Definition: TnbQueue.h:219

TNB::CRingQueueT::~CRingQueueT
virtual ~CRingQueueT(void)
デストラクタ
Definition: TnbQueue.h:186

TNB::CRingQueueT::GetQueueSize
size_t GetQueueSize(void) const
[取得] リングキューサイズ取得.
Definition: TnbQueue.h:240

TNB::CSyncEvent
Event排他管理クラス
Definition: TnbSync.h:480

TNB::CSyncSection
Section排他管理クラス
Definition: TnbSync.h:125

TNB::CSyncSection::Lock
virtual bool Lock(DWORD dwTime=INFINITE) const
[排他] ロック
Definition: TnbSync.h:148

TNB::CSyncSection::Unlock
virtual void Unlock(void) const
[排他] アンロック
Definition: TnbSync.h:155

TNB::CVectorT
配列型情報管理テンプレート
Definition: TnbVector.h:75

TNB::CVectorT::GetBuffer
TYP * GetBuffer(size_t size=0)
[操作] データアドレス取得
Definition: TnbVector.h:745

TNB::CVectorT::ReleaseBuffer
void ReleaseBuffer(void)
[操作] データの管理を元に戻す.
Definition: TnbVector.h:805

TNB::CVectorT::Invalid
void Invalid(void)
[操作] 無効状態にする
Definition: TnbVector.h:604

TNB::ICollectionMidT
情報群管理操作インターフェース拡張テンプレート
Definition: TnbCollection.h:1535

TNB::CStringQueue
TNB::CRingQueueT< CString, true > CStringQueue
CString型キュー管理クラス
Definition: TnbQueue.h:694

TNB::CStrBlockingQueue
TNB::CBlockingQueueT< CStr, true > CStrBlockingQueue
CStr型ブロッキングキュー管理クラス
Definition: TnbQueue.h:682

TNB::CByteQueue
TNB::CRingQueueT< BYTE > CByteQueue
BYTE型(unsigned 8bit)キュークラス
Definition: TnbQueue.h:646

TNB::CByteBlockingQueue
TNB::CBlockingQueueT< BYTE > CByteBlockingQueue
BYTE型(unsigned 8bit)ブロッキングキュークラス
Definition: TnbQueue.h:655

TNB::CDwordQueue
TNB::CRingQueueT< DWORD > CDwordQueue
DWORD型(unsigned 32bit)キュー管理クラス
Definition: TnbQueue.h:664

TNB::CStrQueue
TNB::CRingQueueT< CStr, true > CStrQueue
CStr型キュー管理クラス
Definition: TnbQueue.h:673

EXCLUSIVE
#define EXCLUSIVE(CLS)
簡易排他制御マクロ.
Definition: TnbSync.h:788

TNB
TNB Library
Definition: TnbDoxyTitle.txt:2

TNB::CRingQueueT::THead
配列型情報管理の管理型
Definition: TnbQueue.h:445

TNB::CRingQueueT::THead::THead
THead(size_t size)
コンストラクタ
Definition: TnbQueue.h:454

TNB::CRingQueueT::THead::syncTaking
CSyncEvent syncTaking
Takeした時一時的にUnlockされる(CBlockingQueueT用)
Definition: TnbQueue.h:447

TNB::CRingQueueT::THead::pBuffer
TYP * pBuffer
バッファ
Definition: TnbQueue.h:452

TNB::CRingQueueT::THead::syncAdding
CSyncEvent syncAdding
Addした時一時的にUnlockされる(CBlockingQueueT用)
Definition: TnbQueue.h:448

TNB::CRingQueueT::THead::~THead
~THead(void)
デストラクタ
Definition: TnbQueue.h:459

TNB::CRingQueueT::THead::dataSize
size_t dataSize
実際のデータの長さ
Definition: TnbQueue.h:450

TNB::CRingQueueT::THead::bufferSize
size_t bufferSize
バッファの長さ
Definition: TnbQueue.h:449

TNB::CRingQueueT::THead::readIndex
INDEX readIndex
読込みポジション
Definition: TnbQueue.h:451

TNB::CRingQueueT::THead::syncObj
CSyncSection syncObj
参照排他
Definition: TnbQueue.h:446

TNB::IConstCollectionT::IsInRange
bool IsInRange(INDEX index) const
[確認] INDEXの有効確認.
Definition: TnbCollection.h:358

TNB::IQueueT
キュー型情報管理インターフェーステンプレート
Definition: TnbQueue.h:43

TNB::IQueueT::AddElements
virtual size_t AddElements(size_t size, const TYP *P=NULL)=0
[追加] 複数要素追加.

TNB::IQueueT::~IQueueT
virtual ~IQueueT(void)
デストラクタ
Definition: TnbQueue.h:45

TNB::IQueueT::EraseElements
virtual size_t EraseElements(size_t size)
[削除] 要素削除.
Definition: TnbQueue.h:103

TNB::IQueueT::Add
virtual INDEX Add(const TYP &t)=0
[追加] 要素一つ追加.

TNB::IQueueT::TakeoutToVector
CVectorT< TYP > TakeoutToVector(size_t size)
[取得] 要素配列取出し.
Definition: TnbQueue.h:114

TNB::IQueueT::Take
virtual TYP Take(void)
[取得] 先頭要素取り出し.
Definition: TnbQueue.h:85

TNB::IQueueT::TakeElements
virtual size_t TakeElements(size_t size, TYP *P=NULL)=0
[取得] 複数要素取り出し