tnblib/TnbStaticMemory_8h_source.html

#pragma once

#include "TnbSingleton.h"


//TNB Library

namespace TNB

{


class CStaticMemory

{

public:


    enum EResult

    {

        ER_Success,

        ER_ExistBank,

        ER_NotFoundBank,

        ER_OutOfMemory,

        ER_InvalidTell,

        ER_InvalidParam,

        ER_Locked,

    };


private:


    typedef DWORD TELL;


    #define INVALID_TELL (ULONG_MAX)


    class CManage

    {

        CSyncSection m_syncFunc;

        class CInfo

        {

            DWORD   m_dwLockCount;

            DWORD   m_dwSectorSize;

            WORD    m_wSectorCount;

            WORD    m_wCacheIndex;

            WORD    m_wCacheSecNo;

            WORD    m_wUsedSectors;

            BYTE*   m_pContent;

            WORD *index(void) { return reinterpret_cast<WORD*>(m_pContent); }

            WORD *flag(void)

            {

                return (m_pContent == NULL)

                        ? NULL

                        : reinterpret_cast<WORD*>(&m_pContent[sizeof(WORD) * m_wSectorCount]);

            }

            BYTE* data(WORD wSecNo)

            {

                return (m_pContent == NULL)

                        ? NULL

                        : &m_pContent[  sizeof(WORD) * m_wSectorCount +

                                        sizeof(WORD) * m_wSectorCount +

                                        m_dwSectorSize * wSecNo];

            }

            WORD m_IndexToSecNo(WORD i)

            {

                WORD* W = index();

                ASSERTLIB(W[i] != 0);

                return ToWord(W[i] & 0x7FFF);

            }

            DWORD m_AllocSub(WORD wStart, WORD wEnd, WORD wLen)

            {

                WORD wNext;

                WORD* F = flag();

                while ( wStart < wEnd )

                {

                    wNext = static_cast<WORD>(F[wStart] & 0x7FFF);

                    if ( wNext == 0 )

                    {

                        wNext = m_wSectorCount;

                    }

                    if ( (F[wStart] & 0x8000) == 0 && (wNext - wStart) >= wLen )

                    {

                        //期待セクタ数の空きがあった

                        WORD w = static_cast<WORD>(wStart + wLen);

                        if ( w >= m_wSectorCount )

                        {

                            w = 0;

                        }

                        for ( WORD i = 0; i < wLen; i++ )

                        {

                            F[wStart + i] = static_cast<WORD>(0x8000 | w);

                        }

                        m_wCacheSecNo = w;

                        return wStart;

                    }

                    wStart = wNext;

                }

                return INVALID_TELL;

            }

        public:

            CSyncSection syncBank;

            CInfo(void)

            {

                m_wCacheIndex   = 0;

                m_wCacheSecNo   = 0;

                m_wUsedSectors  = 0;

                m_dwLockCount   = 0;

                m_dwSectorSize  = 0;

                m_wSectorCount  = 0;

                m_pContent      = NULL;

            }

            ~CInfo(void)

            {

                if ( m_pContent != NULL )

                {

                    delete[] m_pContent;

                    m_pContent = NULL;

                }

            }

            WORD GetSectorCount(void) { return m_wSectorCount; }

            bool IsValid(void) { return m_pContent != NULL; }

            EResult Create(DWORD dwSectorSize, WORD wSectorCount)

            {

                EXCLUSIVE(&syncBank);

                if ( m_pContent != NULL ) { return ER_ExistBank; }

                if ( dwSectorSize < 16 ) { return ER_InvalidParam; }

                if ( wSectorCount < 10 || wSectorCount >= 32768) { return ER_InvalidParam; }

                m_pContent = new BYTE[sizeof(WORD) * wSectorCount + (sizeof(WORD) + dwSectorSize) * wSectorCount];

                if ( m_pContent == NULL ){ return ER_OutOfMemory; }

                memset(m_pContent, 0, sizeof(WORD) * wSectorCount + sizeof(WORD) * wSectorCount);

                m_dwSectorSize = dwSectorSize;

                m_wSectorCount= wSectorCount;

                return ER_Success;

            }

            void Delete(void)

            {

                EXCLUSIVE(&syncBank);

                #ifdef _DEBUG

                    if ( m_dwLockCount != 0 )

                    {

                        TRACE0("CStaticMemory::CManage::Delete() ; Lock/Unlockの回数が合っていません。\n");

                    }

                #endif

                if ( m_pContent != NULL )

                {

                    delete[] m_pContent;

                    m_pContent = NULL;

                }

                m_wCacheSecNo = 0;

                m_wCacheIndex = 0;

                m_wUsedSectors = 0;

                m_dwLockCount = 0;

            }

            EResult Resize(WORD wSectorCount)

            {

                EXCLUSIVE(&syncBank);

                if ( wSectorCount == 0 )

                {

                    wSectorCount = m_wSectorCount;

                }

                else if ( m_wUsedSectors > wSectorCount )

                {

                    return ER_OutOfMemory;  //足りなくなる

                }

                else if ( m_wSectorCount > wSectorCount )

                {

                    return ER_InvalidParam; //小さくなる

                }

                if ( m_pContent == NULL ){ return ER_NotFoundBank; }

                CInfo infoNew;

                EResult rc = infoNew.Create(m_dwSectorSize, wSectorCount);

                if ( rc != ER_Success ){ return rc; }

                //

                WORD* W = index();

                WORD* newW = infoNew.index();

                WORD* F = flag();

                WORD wPos;

                for ( WORD i = 0; i < m_wSectorCount; i++ )

                {

                    wPos = W[i];

                    if ( wPos != 0 )

                    {

                        wPos &= 0x7FFF;

                        WORD wLen = static_cast<WORD>((F[wPos] & 0x7FFF) - wPos);

                        DWORD r = infoNew.m_AllocSub(infoNew.m_wCacheSecNo, wSectorCount, wLen);

                        if ( r == INVALID_TELL && infoNew.m_wCacheSecNo != 0 )

                        {

                            r = infoNew.m_AllocSub(0, infoNew.m_wCacheSecNo, wLen);

                        }

                        ASSERTLIB(r != INVALID_TELL);

                        BYTE* P = infoNew.data(ToWord(r));

                        ASSERTLIB(P != NULL);

                        MemCopy(P, data(wPos), wLen * m_dwSectorSize);

                        newW[i] = ToWord(0x8000 | r);

                    }

                }

                m_wSectorCount= wSectorCount;

                m_wCacheSecNo = 0;

                m_wCacheIndex = 0;

                delete[] m_pContent;

                m_pContent = infoNew.m_pContent;

                infoNew.m_pContent = NULL;

                return ER_Success;

            }

            WORD GetUsedSectors(void)

            {

                return m_wUsedSectors;

            }

            DWORD Allocate(size_t size)

            {

                EXCLUSIVE(&syncBank);

                if ( m_pContent == NULL ){ return INVALID_TELL; }

                WORD wLen = ToWord((ToDword(size) + m_dwSectorSize - 1) / m_dwSectorSize);

                if ( wLen + m_wUsedSectors > m_wSectorCount ){ return INVALID_TELL; }

                DWORD r = m_AllocSub(m_wCacheSecNo, m_wSectorCount, wLen);

                if ( r == INVALID_TELL && m_wCacheSecNo != 0 )

                {

                    r = m_AllocSub(0, m_wCacheSecNo, wLen);

                }

                if ( r == INVALID_TELL )

                {

                    return r;

                }

                //

                m_wUsedSectors = static_cast<WORD>(m_wUsedSectors + wLen);

                WORD* W = index();

                for ( WORD i = m_wCacheIndex; i < m_wSectorCount; i++ )

                {

                    if ( W[i] == 0 )

                    {

                        W[i] = ToWord(0x8000 | r);

                        m_wCacheIndex = i;

                        return i;

                    }

                }

                for ( WORD i = 0; i < m_wCacheIndex; i++ )

                {

                    if ( W[i] == 0 )

                    {

                        W[i] = ToWord(0x8000 | r);

                        m_wCacheIndex = i;

                        return i;

                    }

                }

                ASSERTLIB(false);

                return INVALID_TELL;

            }

            bool Free(WORD wIndex)

            {

                EXCLUSIVE(&syncBank);

                if ( m_pContent == NULL ){ return false; } // プールなし

                if ( wIndex >= m_wSectorCount ){ return false; } // 番号異常

                WORD wSecNo = m_IndexToSecNo(wIndex);

                ASSERTLIB(wSecNo < m_wSectorCount);

                WORD* F = flag();

                if ( (F[wSecNo] & 0x8000) == 0 ){ return false; } // 確保していない

                m_wCacheSecNo = wSecNo;

                WORD w;

                WORD wNext = static_cast<WORD>(F[wSecNo] & 0x7FFF);

                if ( wNext == 0 )

                {

                    //= 最後。全部０にしちゃう

                    wNext = m_wSectorCount;

                    w = 0;

                }

                else

                {

                    //= 次のブロック確認

                    if ( (F[wNext] & 0x8000) != 0 )

                    {

                        //確保している.次のブロックはNext

                        w = wNext;

                    }

                    else

                    {

                        //確保していない。次のブロックの次にする。

                        w = F[wNext];

                    }

                }

                for ( WORD i = wSecNo; i < wNext; i++ )

                {

                    F[i] = w;

                }

                index()[wIndex] = 0;

                m_wCacheIndex = wIndex;

                m_wUsedSectors = static_cast<WORD>(m_wUsedSectors - (wNext - wSecNo));

                return true;

            }

            size_t GetSize(WORD wIndex)

            {

                EXCLUSIVE(&syncBank);

                if ( wIndex >= m_wSectorCount ){ return INVALID_TELL; } // 番号異常

                WORD wSecNo = m_IndexToSecNo(wIndex);

                ASSERTLIB(wSecNo < m_wSectorCount);

                WORD* F = flag();

                if ( (F[wSecNo] & 0x8000) == 0 ){ return INVALID_TELL; } //確保してない

                if ( wSecNo != 0 )

                {

                    if ( F[wSecNo - 1] == F[wSecNo] ){ return INVALID_TELL; }//一つ前と同じのはずがない

                }

                return ((F[wSecNo] & 0x7FFF) - wSecNo) * m_dwSectorSize;

            }

            DWORD GetLockCount(void) { return m_dwLockCount; }

            LPVOID Lock(WORD wIndex)

            {

                EXCLUSIVE(&syncBank);

                if ( GetSize(wIndex) == INVALID_TELL ){ return NULL; }

                WORD wSecNo = m_IndexToSecNo(wIndex);

                ASSERTLIB(wSecNo < m_wSectorCount);

                ASSERT0(data(wSecNo) != NULL, "CStaticMemory::CManage::CInfo::Lock()", "確保していません");

                m_dwLockCount++;

                return data(wSecNo);

            }


            void Unlock(void)

            {

                m_dwLockCount--;

            }

        private:

            friend class CStaticMemoryTest;

        }; // CINfo


        //--------------------


        CInfo*  m_pInfo;

        SINGLETON_CONSTRUCTOR(CManage)

        {

            m_pInfo = new CInfo[256];

            ASSERT( m_pInfo != NULL );

        }

        bool m_CheckTell(TELL& tell, BYTE& bank)

        {

            bank = static_cast<BYTE>(tell >> 24);

            tell &= 0x0000FFFF;

            if ( ! m_pInfo[bank].IsValid() ){ return false; }

            return m_pInfo[bank].GetSectorCount() > tell;

        }

    public:

        ~CManage(void)

        {

            if ( m_pInfo != NULL )

            {

                delete[] m_pInfo;

                m_pInfo = NULL;

            }

        }

        EResult CreateBank(BYTE bank, DWORD dwSectorSize, WORD wSectorCount)

        {

            EXCLUSIVE(&m_syncFunc);

            return m_pInfo[bank].Create(dwSectorSize, wSectorCount);

        }

        EResult DeleteBank(BYTE bank, bool boIsForce = false)

        {

            EXCLUSIVE2(&m_syncFunc,&m_pInfo[bank].syncBank);

            if ( ! m_pInfo[bank].IsValid() ){ return ER_NotFoundBank; }

            if ( ! boIsForce && m_pInfo[bank].GetLockCount() != 0 ){ return ER_Locked; }

            m_pInfo[bank].Delete();

            return ER_Success;

        }

        EResult ResizeBank(BYTE bank, WORD wSectorCount = 0)

        {

            EXCLUSIVE2(&m_syncFunc,&m_pInfo[bank].syncBank);

            if ( ! m_pInfo[bank].IsValid() ){ return ER_NotFoundBank; }

            if ( m_pInfo[bank].GetLockCount() != 0 ){ return ER_Locked; }

            return m_pInfo[bank].Resize(wSectorCount);

        }

        WORD GetUsedSectors(BYTE bank)

        {

            return static_cast<WORD>(m_pInfo[bank].IsValid() ? m_pInfo[bank].GetUsedSectors() : 0);

        }

        TELL Allocate(BYTE bank, size_t size)

        {

            if ( size == 0 || ! m_pInfo[bank].IsValid() ){ return INVALID_TELL; }

            DWORD dw = m_pInfo[bank].Allocate(size);

            return (dw == INVALID_TELL) ? INVALID_TELL : ((bank << 24) | dw);

        }

        bool Free(TELL tell)

        {

            BYTE bank;

            return m_CheckTell(tell, bank) ? m_pInfo[bank].Free(ToWord(tell)) : false;

        }

        size_t GetSize(TELL tell)

        {

            BYTE bank;

            return m_CheckTell(tell, bank) ? m_pInfo[bank].GetSize(ToWord(tell)) : 0;

        }

        LPVOID Lock(TELL tell)

        {

            BYTE bank;

            return m_CheckTell(tell, bank) ? m_pInfo[bank].Lock(ToWord(tell)) : NULL;

        }


        bool Unlock(TELL tell)

        {

            BYTE bank;

            if ( ! m_CheckTell(tell, bank) ){ return false; }

            m_pInfo[bank].Unlock();

            return true;

        }


    private:

        friend class CStaticMemoryTest;

    }; // CManage


    //--------------------


    CManage*    m_pMan;

    TELL        m_tell;

    DWORD       m_dwParam;

    void m_Init(void)

    {

        m_dwParam = 0;

        m_pMan = CManage::GetInstance();

        m_tell = INVALID_TELL;

    }


public:


    static EResult CreateBank(BYTE bank, DWORD dwSectorSize, WORD wSectorCount)

    {

        return CManage::GetInstance()->CreateBank(bank, dwSectorSize, wSectorCount);

    }


    static EResult DeleteBank(BYTE bank, bool boIsForce = false)

    {

        return CManage::GetInstance()->DeleteBank(bank, boIsForce);

    }


    static EResult ResizeBank(BYTE bank, WORD wSectorCount = 0)

    {

        return CManage::GetInstance()->ResizeBank(bank, wSectorCount);

    }


    ~CStaticMemory(void)

    {

        Free();

    }


    CStaticMemory(void)

    {

        m_Init();

    }


    CStaticMemory(const CStaticMemory& h)

    {

        m_Init();

        operator=(h);

    }


    CStaticMemory& operator=(const CStaticMemory& other)

    {

        Free();

        if ( other.m_tell != INVALID_TELL )

        {

            LONG* B = static_cast<LONG*>(m_pMan->Lock(other.m_tell));

            ::InterlockedIncrement(B);

            m_pMan->Unlock(other.m_tell);

            m_tell = other.m_tell;

        }

        m_dwParam = other.m_dwParam;

        return *this;

    }


    DWORD GetParam(void)

    {

        return m_dwParam;

    }


    void SetParam(DWORD dwParam)

    {

        m_dwParam = dwParam;

    }


    LONG GetJointlyCount(void)

    {

        if ( m_tell == INVALID_TELL){ return 0; }

        LONG* B = static_cast<LONG*>(m_pMan->Lock(m_tell));

        LONG r = *B;

        m_pMan->Unlock(m_tell);

        return r;

    }


    bool HasMemory(void)

    {

        return m_tell!=INVALID_TELL;

    }


    bool Allocate(BYTE bank, size_t size)

    {

        Free();

        TELL t = m_pMan->Allocate(bank, size + sizeof(LONG));//カウンタ分多く

        if ( t == INVALID_TELL )

        {

            return false;

        }

        LONG* P = static_cast<LONG*>(m_pMan->Lock(t));

        if ( P == NULL )

        {

            m_pMan->Free(t);

            return false;

        }

        *P = 1; //カウンタ初期化

        m_pMan->Unlock(t);

        m_tell = t;

        return true;

    }


    void Free(void)

    {

        if ( m_tell == INVALID_TELL) { return; }

        LONG* B = static_cast<LONG*>(m_pMan->Lock(m_tell));

        if ( ::InterlockedDecrement(B) == 0 )

        {

            m_pMan->Unlock(m_tell);

            m_pMan->Free(m_tell);

        }

        else

        {

            m_pMan->Unlock(m_tell);

        }

        m_tell=INVALID_TELL;

    }


    size_t GetSize(void)

    {

        if ( m_tell == INVALID_TELL ){ return 0; }

        size_t l = m_pMan->GetSize(m_tell);

        if ( l != 0 )

        {

            l -= sizeof(LONG);

        }

        return l;

    }


    LPVOID Lock(void)

    {

        if ( m_tell == INVALID_TELL ) { return NULL; }

        LONG* B = static_cast<LONG*>(m_pMan->Lock(m_tell));

        return &B[1];

    }


    void Unlock(void)

    {

        if ( m_tell != INVALID_TELL )

        {

            m_pMan->Unlock(m_tell);

        }

    }


private:

    friend class CStaticMemoryTest;

};


};//TNB


#ifndef _TnbDOXYGEN //Document作成用シンボル

#if 0

    //m_pContent の確保内容

    [Indexテーブル][Flagテーブル][内容]という並び。

    //Indexテーブル

    並びはIndex順。

    TELLの下位WORD(Index)とセクタNoを関連付けるテーブル。最上位BIT

    が立っていたら使用（下位15BITがSecNo）

    Resize、デフラグしても並びは変換しない。

    // Flagテーブル＆内容

    いずれも並びはSecNo順。

    Flag用DWORDをセクタ数確保。

    セクタサイズのメモリをセクタ数確保。

    Flag用は、次の空きセクタ番号を保持。０なら最後を指す。

    つまり起動時はすべて０。

    確保すると、複数の確保したセクタすべて最上位ビットが立ち、

    次のブロックの先頭セクタ番号が入る。

    ex)

             <0>    <1>    <2>    <3>    <4>    <5>    <6>

        起動時

            0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,

        2ブロック確保

            0x8002,0x8002,0x0000,0x0000,0x0000,0x0000,0x0000,

        さらに３ブロック確保

            0x8002,0x8002,0x8005,0x8005,0x8005,0x0000,0x0000,

        最初の2ブロック開放

            0x0002,0x0002,0x8005,0x8005,0x8005,0x0000,0x0000,

        1ブロック確保

            0x8001,0x0002,0x8005,0x8005,0x8005,0x0000,0x0000,


    つまりチェーンと使用フラグとブロック長がわかるようになる。

#endif

#endif

TnbSingleton.h
シングルトン関係のヘッダ

INVALID_TELL
#define INVALID_TELL
静的メモリ管理クラス用エラー値宣言
Definition: TnbStaticMemory.h:86

TNB::CStaticMemory
静的メモリ管理クラス
Definition: TnbStaticMemory.h:65

TNB::CStaticMemory::operator=
CStaticMemory & operator=(const CStaticMemory &other)
[代入] コピーオペレータ
Definition: TnbStaticMemory.h:694

TNB::CStaticMemory::GetSize
size_t GetSize(void)
[取得] 確保サイズ取得
Definition: TnbStaticMemory.h:808

TNB::CStaticMemory::Unlock
void Unlock(void)
[取得] アンロック
Definition: TnbStaticMemory.h:836

TNB::CStaticMemory::Allocate
bool Allocate(BYTE bank, size_t size)
[取得] メモリ確保
Definition: TnbStaticMemory.h:761

TNB::CStaticMemory::CStaticMemory
CStaticMemory(void)
コンストラクタ
Definition: TnbStaticMemory.h:674

TNB::CStaticMemory::ResizeBank
static EResult ResizeBank(BYTE bank, WORD wSectorCount=0)
[設定] バンクのりサイズ.
Definition: TnbStaticMemory.h:662

TNB::CStaticMemory::GetParam
DWORD GetParam(void)
[取得] パラメータ取得
Definition: TnbStaticMemory.h:712

TNB::CStaticMemory::~CStaticMemory
~CStaticMemory(void)
デストラクタ
Definition: TnbStaticMemory.h:668

TNB::CStaticMemory::CStaticMemory
CStaticMemory(const CStaticMemory &h)
コピーコンストラクタ
Definition: TnbStaticMemory.h:683

TNB::CStaticMemory::EResult
EResult
リザルト
Definition: TnbStaticMemory.h:70

TNB::CStaticMemory::ER_Locked
@ ER_Locked
ロックされています。
Definition: TnbStaticMemory.h:77

TNB::CStaticMemory::ER_InvalidTell
@ ER_InvalidTell
不正なTELLです。
Definition: TnbStaticMemory.h:75

TNB::CStaticMemory::ER_Success
@ ER_Success
成功
Definition: TnbStaticMemory.h:71

TNB::CStaticMemory::ER_ExistBank
@ ER_ExistBank
すでにバンクがあります。
Definition: TnbStaticMemory.h:72

TNB::CStaticMemory::ER_InvalidParam
@ ER_InvalidParam
不正なパラメータです。
Definition: TnbStaticMemory.h:76

TNB::CStaticMemory::ER_NotFoundBank
@ ER_NotFoundBank
バンクが見つかりません。
Definition: TnbStaticMemory.h:73

TNB::CStaticMemory::ER_OutOfMemory
@ ER_OutOfMemory
メモリが足りません。
Definition: TnbStaticMemory.h:74

TNB::CStaticMemory::DeleteBank
static EResult DeleteBank(BYTE bank, bool boIsForce=false)
[設定] バンク削除.
Definition: TnbStaticMemory.h:643

TNB::CStaticMemory::HasMemory
bool HasMemory(void)
[確認] メモリ保持確認
Definition: TnbStaticMemory.h:747

TNB::CStaticMemory::GetJointlyCount
LONG GetJointlyCount(void)
[取得] 共有数取得.
Definition: TnbStaticMemory.h:733

TNB::CStaticMemory::Lock
LPVOID Lock(void)
[取得] アドレス取得＆ロック.
Definition: TnbStaticMemory.h:825

TNB::CStaticMemory::SetParam
void SetParam(DWORD dwParam)
[代入] パラメータ設定
Definition: TnbStaticMemory.h:721

TNB::CStaticMemory::CreateBank
static EResult CreateBank(BYTE bank, DWORD dwSectorSize, WORD wSectorCount)
[設定] バンク作成.
Definition: TnbStaticMemory.h:628

TNB::CStaticMemory::Free
void Free(void)
[取得] メモリ解放
Definition: TnbStaticMemory.h:786

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

SINGLETON_CONSTRUCTOR
#define SINGLETON_CONSTRUCTOR(CLS)
シングルトン作成マクロ
Definition: TnbSingleton.h:60

TNB::STRLIB::ToDword
DWORD ToDword(LPCSTR lpsz, int iBase=10)
[変換] INT変換(ASCII/SJIS用).
Definition: TnbStrLib.h:395

EXCLUSIVE2
#define EXCLUSIVE2(CLS1, CLS2)
簡易排他ツイン制御マクロ.
Definition: TnbSync.h:820

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::MemCopy
void MemCopy(T *_pDst, const void *pSrc, size_t len)
[複製] メモリコピー
Definition: TnbDef.h:376