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Given:

#define MATCHLESS_MODE          (DWORD)0x00000001   // 무적 상태
#define TRANSPARENT_MODE        (DWORD)0x00000002   // 투명 상태
#define ONEKILL_MODE            (DWORD)0x00000004   // 초필 상태
#define DONMOVE_MODE            (DWORD)0x00000008   // 움직이지 못하는 상태
#define SAYTALK_MODE            (DWORD)0x00000010   // 귓속말 못하는 상태
#define MATCHLESS2_MODE         (DWORD)0x00000020   // 무적 상태2 (데미지는 입지만 죽지는 않는다.)
#define NO_ATTACK_MODE          (DWORD)0x00000040   // 공격 못하는 상태
#define ITEM_MODE               (DWORD)0x00000080   // 아이템 못버리고 못집는 모드
#define COMMUNITY_MODE          (DWORD)0x00000100   // 길드, 파티, 친구, 개인간 거래, 개인상점 할수 없음
#define TALK_MODE               (DWORD)0x00000200   // 일반 말 못하는 상태
#define SHOUTTALK_MODE          (DWORD)0x00000400   // 외치기 못하는 상태
#define RECOVERCHAO_MODE        (DWORD)0x00000800   // 카오 극복 모드
#define FREEPK_MODE             (DWORD)0x00001000   // CTRL키 누름 없이 pk가능
#define PVPCONFIRM_MODE         (DWORD)0x00002000   // PVP거절 상태
#define QUERYSETPLAYERNAME_MODE (DWORD)0x00004000   // 캐릭터 명 변경 가능 모드
#define MODE_MAILBOX            (DWORD)0x00008000   // 읽지 않은 편지
class CFixedMode
{
private:
    DWORD m_dwMode;
public:
    CFixedMode()
    {
        m_dwMode = 0;   
    };
    ~CFixedMode(){};
    void            SetMode( DWORD dwMode )     { m_dwMode |= dwMode; }
    void            SetNotMode( DWORD dwMode )  { m_dwMode &= (~dwMode); }
    BOOL            IsMode( DWORD dwMode ) { return ( ( m_dwMode & dwMode ) == dwMode ) ? TRUE : FALSE; }
};

What does this part m_dwMode &= (~dwMode) means? I don't understand the ~

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1  
It is the bitwise negation operator; it inverts each bit in its operand. –  Jonathan Leffler Nov 25 '12 at 4:00

4 Answers 4

up vote 6 down vote accepted

If you mean the ~ in

m_dwMode &= (~dwMode); 

then it's bitwise negation. It inverts the bits of its sole operand. The whole expression means - zero out the bits in m_dwMode on exactly those positions where dwMode has ones.

When you apply ~ to dwMode, it's inverted - the bits that were zero become one and vice versa. The result is then bitwise-AND'ed with m_dwMode. Now, AND with a one bit is a trivial operation. AND with a zero bit, on the other hand, yields a constant zero.

Given the context, the operation is used to set and clear mode bits. I see a bunch of bit masks in the code snippet - MATCHLESS_MODE is nothing but bit 0, TRANSPARENT_MODE is bit 1 and so on. So you can use SetMode() to set respective bits in the m_dwMode, and SetNotMode() to clear them. The parameter to those functions would be one of the XXX_MODE constants, or an OR-combination of several of them.

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Bitwise negation.

1001 == ~0110
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It's bitwise complement. All the bits of the input value are flipped.

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~dwMode is the bitwise complement, that means every bit in the DWORD is inverted.

e.g. 00000000000000000000000000001010 becomes 11111111111111111111111111110101,

so the whole operation switches off the bits in m_dwMode which are set in dwMode

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