#ifndef _ThreadedAvlTREE_CPP #define _ThreadedAvlTREE_CPP /* * Class: * * WmiAllocator * * Description: * * Provides abstraction above heap allocation functions * * Version: * * Initial * * Last Changed: * * See Source Depot for change history * */ #if 0 #include #include #include #include #endif #if 1 #define INLINE_COMPARE #endif /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiThreadedAvlTree :: WmiThreadedAvlTree ( WmiAllocator &a_Allocator ) : m_Allocator ( a_Allocator ) , m_Size ( 0 ) , m_Root ( NULL ) , m_Head ( NULL ) , m_Tail ( NULL ) { } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiThreadedAvlTree :: ~WmiThreadedAvlTree () { WmiStatusCode t_StatusCode = UnInitialize () ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Initialize () { WmiStatusCode t_StatusCode = e_StatusCode_Success ; return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: UnInitialize () { WmiStatusCode t_StatusCode = e_StatusCode_Success ; if ( m_Root ) { t_StatusCode = RecursiveUnInitialize ( m_Root ) ; m_Root = m_Head = m_Tail = NULL; } return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: RecursiveUnInitialize ( WmiThreadedAvlNode *a_Node ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; WmiThreadedAvlNode *t_Left = a_Node->m_Left ; if ( t_Left ) { t_StatusCode = RecursiveUnInitialize ( t_Left ) ; t_Left->~WmiThreadedAvlNode () ; WmiStatusCode t_TempStatusCode = m_Allocator.Delete ( ( void * ) t_Left ) ; t_Left = NULL ; } WmiThreadedAvlNode *t_Right = a_Node->m_Right ; if ( t_Right ) { t_StatusCode = RecursiveUnInitialize ( t_Right ) ; t_Right->~WmiThreadedAvlNode () ; WmiStatusCode t_TempStatusCode = m_Allocator.Delete ( ( void * ) t_Right ) ; t_Right = NULL ; } return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Find ( const WmiKey &a_Key , Iterator &a_Iterator ) { WmiThreadedAvlNode *t_Node = m_Root ; while ( t_Node ) { #ifdef INLINE_COMPARE LONG t_Compare = CompareElement ( a_Key , t_Node->m_Key ) ; if ( t_Compare == 0 ) #else if ( a_Key == t_Node->m_Key ) #endif { a_Iterator = Iterator ( t_Node ) ; return e_StatusCode_Success ; } else { #ifdef INLINE_COMPARE if ( t_Compare < 0 ) #else if ( a_Key < t_Node->m_Key ) #endif { t_Node = t_Node->m_Left ; } else { t_Node = t_Node->m_Right ; } } } return e_StatusCode_NotFound ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: FindNext ( const WmiKey &a_Key , Iterator &a_Iterator ) { WmiThreadedAvlNode *t_Node = m_Root ; while ( t_Node ) { #ifdef INLINE_COMPARE LONG t_Compare = CompareElement ( a_Key , t_Node->m_Key ) ; if ( t_Compare == 0 ) #else if ( a_Key == t_Node->m_Key ) #endif { a_Iterator = Iterator ( t_Node ).Increment () ; return a_Iterator.Null () ? e_StatusCode_NotFound : e_StatusCode_Success ; ; } else { #ifdef INLINE_COMPARE if ( t_Compare < 0 ) #else if ( a_Key < t_Node->m_Key ) #endif { if ( t_Node->m_Left ) { t_Node = t_Node->m_Left ; } else { a_Iterator = Iterator ( t_Node ) ; return e_StatusCode_Success ; } } else { if ( t_Node->m_Right ) { t_Node = t_Node->m_Right ; } else { a_Iterator = Iterator ( t_Node ).Increment () ; return a_Iterator.Null () ? e_StatusCode_NotFound : e_StatusCode_Success ; } } } } return e_StatusCode_NotFound ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Insert ( const WmiKey &a_Key , const WmiElement &a_Element , Iterator &a_Iterator ) { if ( m_Root ) { bool t_Increased ; WmiThreadedAvlNode *t_Node = m_Root ; while ( t_Node ) { #ifdef INLINE_COMPARE LONG t_Compare = CompareElement ( a_Key , t_Node->m_Key ) ; if ( t_Compare == 0 ) #else if ( a_Key == t_Node->m_Key ) #endif { return e_StatusCode_AlreadyExists ; } else { #ifdef INLINE_COMPARE if ( t_Compare < 0 ) #else if ( a_Key < t_Node->m_Key ) #endif { if ( t_Node->m_Left ) { t_Node = t_Node->m_Left ; } else { WmiThreadedAvlNode *t_AllocNode ; WmiStatusCode t_StatusCode = m_Allocator.New ( ( void ** ) & t_AllocNode , sizeof ( WmiThreadedAvlNode ) ) ; if ( t_StatusCode == e_StatusCode_Success ) { :: new ( ( void* ) t_AllocNode ) WmiThreadedAvlNode () ; try { t_AllocNode->m_Element = a_Element ; t_AllocNode->m_Key = a_Key ; } catch ( Wmi_Heap_Exception &a_Exception ) { t_AllocNode->~WmiThreadedAvlNode () ; WmiStatusCode t_StatusCode = m_Allocator.Delete ( ( void * ) t_AllocNode ) ; return e_StatusCode_OutOfMemory ; } catch ( ... ) { t_AllocNode->~WmiThreadedAvlNode () ; WmiStatusCode t_StatusCode = m_Allocator.Delete ( ( void * ) t_AllocNode ) ; return e_StatusCode_Unknown ; } a_Iterator = Iterator ( t_AllocNode ) ; m_Size ++ ; t_Increased = true ; WmiThreadedAvlNode *t_PreviousNode = t_Node->m_Previous ; t_AllocNode->m_Previous = t_PreviousNode ; t_AllocNode->m_Next = t_Node ; t_Node->m_Previous = t_AllocNode ; if ( t_PreviousNode ) { t_PreviousNode->m_Next = t_AllocNode ; } else { m_Head = t_AllocNode ; } t_AllocNode->m_Parent = t_Node ; t_Node->m_Left = t_AllocNode ; t_StatusCode = Insert_LeftBalance ( t_Node , t_Node->m_Left , t_Increased ) ; while ( t_Increased ) { WmiThreadedAvlNode *t_ParentNode = t_Node->m_Parent ; if ( t_ParentNode ) { if ( t_ParentNode->m_Left == t_Node ) { t_StatusCode = Insert_LeftBalance ( t_ParentNode , t_Node , t_Increased ) ; } else { t_StatusCode = Insert_RightBalance ( t_ParentNode , t_Node , t_Increased ) ; } t_Node = t_Node->m_Parent ; } else { return e_StatusCode_Success ; } } return e_StatusCode_Success ; } else { return t_StatusCode ; } } } else { if ( t_Node->m_Right ) { t_Node = t_Node->m_Right ; } else { WmiThreadedAvlNode *t_AllocNode ; WmiStatusCode t_StatusCode = m_Allocator.New ( ( void ** ) & t_AllocNode , sizeof ( WmiThreadedAvlNode ) ) ; if ( t_StatusCode == e_StatusCode_Success ) { :: new ( ( void* ) t_AllocNode ) WmiThreadedAvlNode () ; try { t_AllocNode->m_Element = a_Element ; t_AllocNode->m_Key = a_Key ; } catch ( Wmi_Heap_Exception &a_Exception ) { t_AllocNode->~WmiThreadedAvlNode () ; WmiStatusCode t_StatusCode = m_Allocator.Delete ( ( void * ) t_AllocNode ) ; return e_StatusCode_OutOfMemory ; } catch ( ... ) { t_AllocNode->~WmiThreadedAvlNode () ; WmiStatusCode t_StatusCode = m_Allocator.Delete ( ( void * ) t_AllocNode ) ; return e_StatusCode_Unknown ; } a_Iterator = Iterator ( t_AllocNode ) ; m_Size ++ ; t_Increased = true ; WmiThreadedAvlNode *t_NextNode = t_Node->m_Next ; t_AllocNode->m_Previous = t_Node ; t_AllocNode->m_Next = t_NextNode ; t_Node->m_Next = t_AllocNode ; if ( t_NextNode ) { t_NextNode->m_Previous = t_AllocNode ; } else { m_Tail = t_AllocNode ; } t_AllocNode->m_Parent = t_Node ; t_Node->m_Right = t_AllocNode ; t_StatusCode = Insert_RightBalance ( t_Node , t_Node->m_Right , t_Increased ) ; while ( t_Increased ) { WmiThreadedAvlNode *t_ParentNode = t_Node->m_Parent ; if ( t_ParentNode ) { if ( t_ParentNode->m_Left == t_Node ) { t_StatusCode = Insert_LeftBalance ( t_ParentNode , t_Node , t_Increased ) ; } else { t_StatusCode = Insert_RightBalance ( t_ParentNode , t_Node , t_Increased ) ; } t_Node = t_ParentNode ; } else { return e_StatusCode_Success ; } } return e_StatusCode_Success ; } else { return t_StatusCode ; } } } } } return e_StatusCode_Failed ; } else { WmiThreadedAvlNode *t_AllocNode ; WmiStatusCode t_StatusCode = m_Allocator.New ( ( void ** ) & t_AllocNode , sizeof ( WmiThreadedAvlNode ) ) ; if ( t_StatusCode == e_StatusCode_Success ) { :: new ( ( void* ) t_AllocNode ) WmiThreadedAvlNode () ; try { t_AllocNode->m_Element = a_Element ; t_AllocNode->m_Key = a_Key ; } catch ( Wmi_Heap_Exception &a_Exception ) { t_AllocNode->~WmiThreadedAvlNode () ; WmiStatusCode t_StatusCode = m_Allocator.Delete ( ( void * ) t_AllocNode ) ; return e_StatusCode_OutOfMemory ; } catch ( ... ) { t_AllocNode->~WmiThreadedAvlNode () ; WmiStatusCode t_StatusCode = m_Allocator.Delete ( ( void * ) t_AllocNode ) ; return e_StatusCode_Unknown ; } a_Iterator = Iterator ( t_AllocNode ) ; m_Root = m_Head = m_Tail = t_AllocNode ; m_Size ++ ; } return t_StatusCode ; } } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Delete ( const WmiKey &a_Key ) { if ( m_Root ) { bool t_Decreased ; WmiThreadedAvlNode *t_Node = m_Root ; while ( t_Node ) { #ifdef INLINE_COMPARE LONG t_Compare = CompareElement ( a_Key , t_Node->m_Key ) ; if ( t_Compare == 0 ) #else if ( a_Key == t_Node->m_Key ) #endif { WmiThreadedAvlNode *t_ParentNode = t_Node->m_Parent ; if ( t_ParentNode ) { bool t_LeftSide = t_ParentNode->m_Left == t_Node ? true : false ; WmiThreadedAvlNode *t_PreviousNode = t_Node->m_Previous ; WmiThreadedAvlNode *t_NextNode = t_Node->m_Next ; if ( t_PreviousNode ) { t_PreviousNode->m_Next = t_NextNode; } else { m_Head = t_NextNode ; } if ( t_NextNode ) { t_NextNode->m_Previous = t_PreviousNode ; } else { m_Tail = t_PreviousNode ; } WmiStatusCode t_StatusCode = DeleteFixup ( t_Node , t_Decreased ) ; m_Size -- ; while ( t_Decreased ) { if ( t_ParentNode ) { if ( t_LeftSide ) { t_StatusCode = Delete_LeftBalance ( t_ParentNode , t_ParentNode->m_Right , t_Decreased ) ; } else { t_StatusCode = Delete_RightBalance ( t_ParentNode , t_ParentNode->m_Left , t_Decreased ) ; } t_Node = t_ParentNode ; t_ParentNode = t_Node->m_Parent ; if ( t_ParentNode ) { t_LeftSide = t_ParentNode->m_Left == t_Node ? true : false ; } } else { return e_StatusCode_Success ; } } return e_StatusCode_Success ; } else { WmiThreadedAvlNode *t_PreviousNode = t_Node->m_Previous ; WmiThreadedAvlNode *t_NextNode = t_Node->m_Next ; if ( t_PreviousNode ) { t_PreviousNode->m_Next = t_NextNode; } else { m_Head = t_NextNode ; } if ( t_NextNode ) { t_NextNode->m_Previous = t_PreviousNode ; } else { m_Tail = t_PreviousNode ; } m_Size -- ; return DeleteFixup ( t_Node , t_Decreased ) ; } } else { #ifdef INLINE_COMPARE if ( t_Compare < 0 ) #else if ( a_Key < t_Node->m_Key ) #endif { if ( t_Node->m_Left ) { t_Node = t_Node->m_Left ; } else { return e_StatusCode_NotFound ; } } else { if ( t_Node->m_Right ) { t_Node = t_Node->m_Right ; } else { return e_StatusCode_NotFound ; } } } } return e_StatusCode_Failed ; } else { return e_StatusCode_NotFound ; } } /****************************************************************************** * * Name: * * * Description: * * * case 1: * * N A * / \ * A -> * * Parent Decreased,on side based on recursion step * * case 2: * * N A * / \ * A -> * * Parent Decreased,on side based on recursion step * * case 3: * N B * / \ / \ * A B -> A Y * / \ * Y * * B decreased on Right * * case 4: * * N B * / \ / \ * A C -> A C * / \ / \ * B Y X Y * \ * X * * C decreased on Left, Apply LeftBalance on C * Apply RightBalance on B * * N D * / \ / \ * A C -> A C * / \ / \ * B Y B Y * / \ / \ * D X E X * \ * E * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: DeleteFixup ( WmiThreadedAvlNode *a_Node , bool &a_Decreased ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; a_Decreased = true ; WmiThreadedAvlNode *t_Left = a_Node->m_Left ; WmiThreadedAvlNode *t_Right = a_Node->m_Right ; WmiThreadedAvlNode *t_Parent = a_Node->m_Parent ; if ( t_Left && t_Right ) { Iterator t_Iterator ( a_Node ) ; t_Iterator.Increment () ; WmiThreadedAvlNode *t_Successor = t_Iterator.m_Node ; t_Successor->m_State = a_Node->m_State ; if ( t_Parent ) { if ( t_Parent->m_Left == a_Node ) { t_Parent->m_Left = t_Successor ; } else { t_Parent->m_Right = t_Successor; } } else { m_Root = t_Successor ; } if ( t_Successor->m_Parent != a_Node ) { /* case 4 */ if ( a_Node->m_Left ) { a_Node->m_Left->m_Parent = t_Successor ; } if ( a_Node->m_Right ) { a_Node->m_Right->m_Parent = t_Successor ; } WmiThreadedAvlNode *t_Node = t_Successor->m_Parent ; t_Successor->m_Parent->m_Left = t_Successor->m_Right ; if ( t_Successor->m_Left ) { t_Successor->m_Left->m_Parent = t_Successor->m_Parent ; } if ( t_Successor->m_Right ) { t_Successor->m_Right->m_Parent = t_Successor->m_Parent ; } t_Successor->m_Left = a_Node->m_Left ; t_Successor->m_Right = a_Node->m_Right ; t_Successor->m_Parent = a_Node->m_Parent ; do { t_StatusCode = Delete_LeftBalance ( t_Node , t_Node->m_Right , a_Decreased ) ; #if 0 ULONG t_Count = 1 ; ULONG t_Height = 0 ; ULONG t_MaxHeight = 0 ; t_StatusCode = RecursiveCheck ( t_Node , t_Count , t_Height , t_MaxHeight ) ; if ( t_StatusCode == e_StatusCode_Success ) { } #endif t_Node = t_Node->m_Parent ; } while ( ( t_StatusCode == e_StatusCode_Success ) && ( t_Node != t_Successor ) ) ; if ( t_StatusCode == e_StatusCode_Success ) { t_StatusCode = Delete_RightBalance ( t_Node , t_Node->m_Left , a_Decreased ) ; #if 0 ULONG t_Count = 1 ; ULONG t_Height = 0 ; ULONG t_MaxHeight = 0 ; t_StatusCode = RecursiveCheck ( t_Node , t_Count , t_Height , t_MaxHeight ) ; if ( t_StatusCode == e_StatusCode_Success ) { } #endif } } else { /* case 3 */ if ( a_Node->m_Left ) { a_Node->m_Left->m_Parent = t_Successor ; } if ( a_Node->m_Right ) { a_Node->m_Right->m_Parent = t_Successor ; } t_Successor->m_Left = a_Node->m_Left ; t_Successor->m_Parent = a_Node->m_Parent ; t_StatusCode = Delete_RightBalance ( t_Successor , t_Successor->m_Left , a_Decreased ) ; } } else { if ( t_Parent ) { if ( t_Parent->m_Left == a_Node ) { t_Parent->m_Left = t_Left ? t_Left : t_Right ; } else { t_Parent->m_Right = t_Left ? t_Left : t_Right ; } } else { m_Root = a_Node->m_Left ? a_Node->m_Left : a_Node->m_Right ; } if ( t_Left ) { /* case 1 */ t_Left->m_Parent = a_Node->m_Parent ; t_Left->m_State = a_Node->m_State ; t_StatusCode = Delete_LeftBalance ( t_Left , t_Left->m_Right , a_Decreased ) ; } else if ( t_Right ) { /* case 2 */ t_Right->m_Parent = a_Node->m_Parent ; t_Right->m_State = a_Node->m_State ; t_StatusCode = Delete_RightBalance ( t_Right , t_Right->m_Left , a_Decreased ) ; } } a_Node->~WmiThreadedAvlNode () ; t_StatusCode = m_Allocator.Delete ( ( void * ) a_Node ) ; return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Insert_LeftBalance ( WmiThreadedAvlNode *&A , WmiThreadedAvlNode *B , bool &a_Increased ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; if ( a_Increased ) { switch ( A->m_State ) { case WmiThreadedAvlNode :: e_Equal: { A->m_State = WmiThreadedAvlNode :: e_LeftHigher ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { A->m_State = WmiThreadedAvlNode :: e_Equal ; a_Increased = false ; } break ; case WmiThreadedAvlNode :: e_LeftHigher: { a_Increased = false ; switch ( B->m_State ) { case WmiThreadedAvlNode :: e_Equal: { } break ; case WmiThreadedAvlNode :: e_LeftHigher: { WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = B ; } else { t_Parent->m_Right = B ; } } else { m_Root = B ; } if ( B->m_Right ) { B->m_Right->m_Parent = A ; } A->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_Left = B->m_Right ; A->m_Parent = B ; B->m_State = WmiThreadedAvlNode :: e_Equal ; B->m_Right = A ; B->m_Parent = t_Parent ; A = B ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { WmiThreadedAvlNode *C = A->m_Left->m_Right ; WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = C ; } else { t_Parent->m_Right = C ; } } else { m_Root = C ; } A->m_Parent = C ; B->m_Parent = C ; if ( C->m_Left ) { C->m_Left->m_Parent = B ; } if ( C->m_Right ) { C->m_Right->m_Parent = A ; } A->m_Left = C->m_Right ; B->m_Right = C->m_Left ; C->m_Left = B ; C->m_Right = A ; C->m_Parent = t_Parent ; switch ( C->m_State ) { case WmiThreadedAvlNode :: e_LeftHigher: { B->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_State = WmiThreadedAvlNode :: e_RightHigher ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { B->m_State = WmiThreadedAvlNode :: e_LeftHigher ; A->m_State = WmiThreadedAvlNode :: e_Equal ; } break ; case WmiThreadedAvlNode :: e_Equal: { B->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_State = WmiThreadedAvlNode :: e_Equal ; } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } C->m_State = WmiThreadedAvlNode :: e_Equal ; A = C ; } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } } return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Insert_RightBalance ( WmiThreadedAvlNode *&A , WmiThreadedAvlNode *B , bool &a_Increased ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; if ( a_Increased ) { switch ( A->m_State ) { case WmiThreadedAvlNode :: e_Equal: { A->m_State = WmiThreadedAvlNode :: e_RightHigher ; } break ; case WmiThreadedAvlNode :: e_LeftHigher: { A->m_State = WmiThreadedAvlNode :: e_Equal ; a_Increased = false ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { a_Increased = false ; switch ( B->m_State ) { case WmiThreadedAvlNode :: e_Equal: { } break ; case WmiThreadedAvlNode :: e_RightHigher: { WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = B ; } else { t_Parent->m_Right = B ; } } else { m_Root = B ; } if ( B->m_Left ) { B->m_Left->m_Parent = A ; } A->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_Right = B->m_Left ; A->m_Parent = B ; B->m_State = WmiThreadedAvlNode :: e_Equal ; B->m_Left = A ; B->m_Parent = t_Parent ; A = B ; } break ; case WmiThreadedAvlNode :: e_LeftHigher: { WmiThreadedAvlNode *C = A->m_Right->m_Left ; WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = C ; } else { t_Parent->m_Right = C ; } } else { m_Root = C ; } A->m_Parent = C ; B->m_Parent = C ; if ( C->m_Right ) { C->m_Right->m_Parent = B ; } if ( C->m_Left ) { C->m_Left->m_Parent = A ; } B->m_Left = C->m_Right ; A->m_Right = C->m_Left ; C->m_Right = B ; C->m_Left = A ; C->m_Parent = t_Parent ; switch ( C->m_State ) { case WmiThreadedAvlNode :: e_LeftHigher: { B->m_State = WmiThreadedAvlNode :: e_RightHigher ; A->m_State = WmiThreadedAvlNode :: e_Equal ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { B->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_State = WmiThreadedAvlNode :: e_LeftHigher ; } break ; case WmiThreadedAvlNode :: e_Equal: { B->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_State = WmiThreadedAvlNode :: e_Equal ; } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } C->m_State = WmiThreadedAvlNode :: e_Equal ; A = C ; } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } } return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Delete_LeftBalance ( WmiThreadedAvlNode *&A , WmiThreadedAvlNode *B , bool &a_Decreased ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; if ( a_Decreased ) { switch ( A->m_State ) { case WmiThreadedAvlNode :: e_Equal: { A->m_State = WmiThreadedAvlNode :: e_RightHigher ; a_Decreased = false ; } break ; case WmiThreadedAvlNode :: e_LeftHigher: { A->m_State = WmiThreadedAvlNode :: e_Equal ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { switch ( B->m_State ) { case WmiThreadedAvlNode :: e_Equal: { a_Decreased = false ; WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = B ; } else { t_Parent->m_Right = B ; } } else { m_Root = B ; } if ( B->m_Left ) { B->m_Left->m_Parent = A ; } A->m_State = WmiThreadedAvlNode :: e_RightHigher ; A->m_Right = B->m_Left ; A->m_Parent = B ; B->m_State = WmiThreadedAvlNode :: e_LeftHigher ; B->m_Left = A ; B->m_Parent = t_Parent ; A = B ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = B ; } else { t_Parent->m_Right = B ; } } else { m_Root = B ; } if ( B->m_Left ) { B->m_Left->m_Parent = A ; } A->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_Right = B->m_Left ; A->m_Parent = B ; B->m_State = WmiThreadedAvlNode :: e_Equal ; B->m_Left = A ; B->m_Parent = t_Parent ; A = B ; } break ; case WmiThreadedAvlNode :: e_LeftHigher: { WmiThreadedAvlNode *C = A->m_Right->m_Left ; WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = C ; } else { t_Parent->m_Right = C ; } } else { m_Root = C ; } A->m_Parent = C ; B->m_Parent = C ; if ( C->m_Left ) { C->m_Left->m_Parent = A ; } if ( C->m_Right ) { C->m_Right->m_Parent = B ; } A->m_Right = C->m_Left ; B->m_Left = C->m_Right ; C->m_Left = A ; C->m_Right = B ; C->m_Parent = t_Parent ; switch ( C->m_State ) { case WmiThreadedAvlNode :: e_LeftHigher: { A->m_State = WmiThreadedAvlNode :: e_Equal ; B->m_State = WmiThreadedAvlNode :: e_RightHigher ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { B->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_State = WmiThreadedAvlNode :: e_LeftHigher ; } break ; case WmiThreadedAvlNode :: e_Equal: { B->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_State = WmiThreadedAvlNode :: e_Equal ; } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } C->m_State = WmiThreadedAvlNode :: e_Equal ; A = C ; } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } } return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Delete_RightBalance ( WmiThreadedAvlNode *&A , WmiThreadedAvlNode *B , bool &a_Decreased ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; if ( a_Decreased ) { switch ( A->m_State ) { case WmiThreadedAvlNode :: e_Equal: { A->m_State = WmiThreadedAvlNode :: e_LeftHigher ; a_Decreased = false ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { A->m_State = WmiThreadedAvlNode :: e_Equal ; } break ; case WmiThreadedAvlNode :: e_LeftHigher: { switch ( B->m_State ) { case WmiThreadedAvlNode :: e_Equal: { a_Decreased = false ; WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = B ; } else { t_Parent->m_Right = B ; } } else { m_Root = B ; } if ( B->m_Right ) { B->m_Right->m_Parent = A ; } A->m_State = WmiThreadedAvlNode :: e_LeftHigher ; A->m_Left = B->m_Right ; A->m_Parent = B ; B->m_State = WmiThreadedAvlNode :: e_RightHigher ; B->m_Right = A ; B->m_Parent = t_Parent ; A = B ; } break ; case WmiThreadedAvlNode :: e_LeftHigher: { WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = B ; } else { t_Parent->m_Right = B ; } } else { m_Root = B ; } if ( B->m_Right ) { B->m_Right->m_Parent = A ; } A->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_Left = B->m_Right ; A->m_Parent = B ; B->m_State = WmiThreadedAvlNode :: e_Equal ; B->m_Right = A ; B->m_Parent = t_Parent ; A = B ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { WmiThreadedAvlNode *C = A->m_Left->m_Right ; WmiThreadedAvlNode *t_Parent = A->m_Parent ; if ( t_Parent ) { if ( t_Parent->m_Left == A ) { t_Parent->m_Left = C ; } else { t_Parent->m_Right = C ; } } else { m_Root = C ; } A->m_Parent = C ; B->m_Parent = C ; if ( C->m_Left ) { C->m_Left->m_Parent = B ; } if ( C->m_Right ) { C->m_Right->m_Parent = A ; } A->m_Left = C->m_Right ; B->m_Right = C->m_Left ; C->m_Left = B ; C->m_Right = A ; C->m_Parent = t_Parent ; switch ( C->m_State ) { case WmiThreadedAvlNode :: e_LeftHigher: { B->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_State = WmiThreadedAvlNode :: e_RightHigher ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { A->m_State = WmiThreadedAvlNode :: e_Equal ; B->m_State = WmiThreadedAvlNode :: e_LeftHigher ; } break ; case WmiThreadedAvlNode :: e_Equal: { B->m_State = WmiThreadedAvlNode :: e_Equal ; A->m_State = WmiThreadedAvlNode :: e_Equal ; } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } C->m_State = WmiThreadedAvlNode :: e_Equal ; A = C ; } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } } break ; default: { t_StatusCode = e_StatusCode_Unknown ; } break ; } } return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Merge ( WmiThreadedAvlTree &a_Tree ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; Iterator t_Iterator = a_Tree.Root (); while ( ( ! t_Iterator.Null () ) && ( t_StatusCode == e_StatusCode_Success ) ) { Iterator t_InsertIterator ; t_StatusCode = Insert ( t_Iterator.GetKey () , t_Iterator.GetElement () , t_InsertIterator ) ; if ( t_StatusCode == e_StatusCode_Success ) { t_StatusCode = a_Tree.Delete ( t_Iterator.GetKey () ) ; } t_Iterator = a_Tree.Root () ; } return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: Check ( ULONG & a_MaxHeight ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; #if 0 printf ( "\nStart Check ( %ld )" , m_Size ) ; #endif if ( m_Root ) { if ( m_Root->m_Parent == NULL ) { ULONG t_Count = 1 ; ULONG t_Height = 0 ; a_MaxHeight = 0 ; t_StatusCode = RecursiveCheck ( m_Root , t_Count , t_Height , a_MaxHeight ) ; if ( t_StatusCode == e_StatusCode_Success ) { if ( t_Count != m_Size ) { t_StatusCode = e_StatusCode_Failed ; } } } else { t_StatusCode = e_StatusCode_Failed ; } } #if 0 printf ( "\nEnd Check" ) ; #endif return t_StatusCode ; } /****************************************************************************** * * Name: * * * Description: * * *****************************************************************************/ template WmiStatusCode WmiThreadedAvlTree :: RecursiveCheck ( WmiThreadedAvlNode *a_Node , ULONG &a_Count , ULONG a_Height , ULONG &a_MaxHeight ) { WmiStatusCode t_StatusCode = e_StatusCode_Success ; a_Height ++ ; #if 0 printf ( "\n" ) ; for ( ULONG t_TabIndex = 0 ; t_TabIndex < a_Height ; t_TabIndex ++ ) { printf ( "++++" ) ; } printf ( "%ld" , a_Node->m_Key ) ; switch ( a_Node->m_State ) { case WmiThreadedAvlNode :: e_LeftHigher: { printf ( "\t LH" ) ; } break ; case WmiThreadedAvlNode :: e_RightHigher: { printf ( "\t RH" ) ; } break ; case WmiThreadedAvlNode :: e_Equal: { printf ( "\t E" ) ; } break ; } #endif if ( t_StatusCode == e_StatusCode_Success ) { ULONG t_LeftHeight = a_Height ; WmiThreadedAvlNode *t_Left = a_Node->m_Left ; if ( t_Left ) { if ( t_Left->m_Parent == a_Node ) { a_Count ++ ; t_StatusCode = RecursiveCheck ( t_Left , a_Count , a_Height , t_LeftHeight ) ; } else { t_StatusCode = e_StatusCode_Failed ; } } else { #if 0 printf ( "\n" ) ; for ( ULONG t_TabIndex = 0 ; t_TabIndex <= a_Height ; t_TabIndex ++ ) { printf ( "++++" ) ; } printf ( "NULL" ) ; printf ( "\t E" ) ; #endif } ULONG t_RightHeight = a_Height ; WmiThreadedAvlNode *t_Right = a_Node->m_Right ; if ( t_Right ) { if ( t_Right->m_Parent == a_Node ) { a_Count ++ ; t_StatusCode = RecursiveCheck ( t_Right , a_Count , a_Height , t_RightHeight ) ; } else { t_StatusCode = e_StatusCode_Failed ; } } else { #if 0 printf ( "\n" ) ; for ( ULONG t_TabIndex = 0 ; t_TabIndex <= a_Height ; t_TabIndex ++ ) { printf ( "++++" ) ; } printf ( "NULL" ) ; printf ( "\t E" ) ; #endif } switch ( a_Node->m_State ) { case WmiThreadedAvlNode :: e_LeftHigher: { if ( t_LeftHeight <= t_RightHeight ) { t_StatusCode = e_StatusCode_Failed ; } } break ; case WmiThreadedAvlNode :: e_RightHigher: { if ( t_LeftHeight >= t_RightHeight ) { t_StatusCode = e_StatusCode_Failed ; } } break ; case WmiThreadedAvlNode :: e_Equal: { if ( t_LeftHeight != t_RightHeight ) { t_StatusCode = e_StatusCode_Failed ; } } break ; } if ( t_LeftHeight < t_RightHeight ) { a_MaxHeight = t_RightHeight ; } else { a_MaxHeight = t_LeftHeight ; } } if ( t_StatusCode == e_StatusCode_Success ) { if ( a_Node->m_State == WmiThreadedAvlNode :: e_Equal ) { if ( ( ( a_Node->m_Left == 0 ) && ( a_Node->m_Right == 0 ) ) ) { } else if ( ! ( a_Node->m_Left && a_Node->m_Right ) ) { t_StatusCode = e_StatusCode_Failed ; } } if ( a_Node->m_State == WmiThreadedAvlNode :: e_LeftHigher ) { if ( a_Node->m_Left == NULL ) { t_StatusCode = e_StatusCode_Failed ; } } if ( a_Node->m_State == WmiThreadedAvlNode :: e_RightHigher ) { if ( a_Node->m_Right == NULL ) { t_StatusCode = e_StatusCode_Failed ; } } } return t_StatusCode ; } #endif _ThreadedAvlTREE_CPP