libopencascade-foundation-dev 6.5.0.dfsg-2build1 / usr / include / opencascade / TCollection_AVLSearchTree.gxx

// Copyright: 	Matra-Datavision 1991
// File:	TCollection_AVLSearchTree.gxx
// Created:	Thu May 23 16:57:42 1991
// Author:	Jean-Pierre TIRAULT
//		Transient implementation
//

#define TCollection_AVLSearchTreeTrace 0
// K_TRACE_A_METHOD used also in Engine.cxx, Engine_Signature.cxx,
// Engine_Argument.cxx, Engine_MyClassCompareOfSignature.cxx and
// TCollection_AVLSearchTree.gxx (! pour Kernel)
#define K_TRACE_A_METHOD 0
#if K_TRACE_A_METHOD
extern K_Trace_a_Method ;
#endif

#include <Standard_NoSuchObject.hxx>      
#include <Standard_Address.hxx>           
#include <TCollection_Side.hxx>           
#if TCollection_AVLSearchTreeTrace
#include <Engine_Signature.hxx>
#endif


//-----------------------------------------------------------------------------
// Create : creates an empty AVLSearchTCollection_AVLSearchTree
//-----------------------------------------------------------------------------
TCollection_AVLSearchTree::
    TCollection_AVLSearchTree(const Comparator& AComparator) : TheRoot(NULL)
{
  TheComparator = AComparator;
}


//----------------------------------------------------------------------------
Standard_Integer TCollection_AVLSearchTree::Extent () const
{
  return TCollection_AVLNode::RecursiveExtent((TCollection_AVLNode*) TheRoot);
}


//----------------------------------------------------------------------------
Standard_Integer TCollection_AVLSearchTree::TotalExtent () const
{
  return TCollection_AVLNode::RecursiveTotalExtent((TCollection_AVLNode*)TheRoot);
}

//----------------------------------------------------------------------------
// Find the Node where an item is located
//----------------------------------------------------------------------------
Standard_Boolean TCollection_AVLSearchTree::Find(const Item& TheItem) const
{
  TCollection_AVLNode* aNode = (TCollection_AVLNode*) TheRoot;
#if TCollection_AVLSearchTreeTrace
  cout << " ++++++++++++++++++ SEARCH1 +++++++++++++++++++++++++++++" << endl ;
  cout << "BEGINNING OF SEARCH OF " << TheItem->PForMapOfMethods()->Name()
       << " in " << hex << TheRoot << dec << endl ;
#endif
  while (aNode) {
    if ( TheComparator.IsLower(TheItem, aNode->Value()) ) {
      aNode = (TCollection_AVLNode*)aNode->Left();
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsLower : Left : " << hex
             << aNode << dec << endl ;
#endif
    }
    else if ( TheComparator.IsGreater(TheItem, aNode->Value()) ) {
      aNode = (TCollection_AVLNode*)aNode->Right();
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsGreater : Right : " << hex
             << aNode << dec << endl ;
#endif
    }
    else {
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsEqual : " << hex << aNode
             << dec << endl ;
#endif
      break;
    }
  }
  if ( aNode ) {
#if TCollection_AVLSearchTreeTrace
    cout << "FOUND " << aNode->Value()->PForMapOfMethods()->Name() << endl ;
#endif
    return Standard_True;
  }
#if TCollection_AVLSearchTreeTrace
  cout << " NOT FOUND" << endl ;
#endif
  return Standard_False;

}

//----------------------------------------------------------------------------
// Find the Node where an item is located and returns the node associated
//----------------------------------------------------------------------------
Standard_Boolean TCollection_AVLSearchTree::Find(const Item&    TheItem,
					      Standard_Address& TheNode) const
{
  TCollection_AVLNode* aNode = (TCollection_AVLNode*) TheRoot;
#if TCollection_AVLSearchTreeTrace
  cout << " ++++++++++++++++++ SEARCH2 +++++++++++++++++++++++++++++" << endl ;
  cout << "BEGINNING OF SEARCH OF " << TheItem->PForMapOfMethods()->Name()
       << " in " << hex << TheRoot << dec << endl ;
#endif
  while (aNode) {
    if ( TheComparator.IsLower(TheItem, aNode->Value()) ) {  
      aNode = (TCollection_AVLNode*)aNode->Left();
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsLower : Left : " << hex
             << aNode << dec << endl ;
#endif
    }
    else if ( TheComparator.IsGreater(TheItem, aNode->Value()) ) {
      aNode = (TCollection_AVLNode*)aNode->Right();
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsGreater : Right : " << hex
             << aNode << dec << endl ;
#endif
    }
    else {
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsEqual : " << hex << aNode
             << dec << endl ;
#endif
      break;
    }
  }
  if ( aNode ) {
    TheNode = (Standard_Address) aNode;
#if TCollection_AVLSearchTreeTrace
    cout << "FOUND " << aNode->Value()->PForMapOfMethods()->Name() << endl ;
#endif
    return Standard_True;
  }
#if TCollection_AVLSearchTreeTrace
  cout << " NOT FOUND" << endl ;
#endif
    return Standard_False;

}

//----------------------------------------------------------------------------
// Find the Node where an item is located
//----------------------------------------------------------------------------
Standard_Boolean TCollection_AVLSearchTree::Find(const Item& TheItem,
					      Item& TheOrig) const
{
  TCollection_AVLNode* aNode = (TCollection_AVLNode*) TheRoot;
#if TCollection_AVLSearchTreeTrace
  cout << " ++++++++++++++++++ SEARCH3 +++++++++++++++++++++++++++++" << endl ;
  cout << "BEGINNING OF SEARCH OF " << TheItem->PForMapOfMethods()->Name()
       << " in " << hex << TheRoot << dec << endl ;
#endif
  while (aNode) {
    if ( TheComparator.IsLower(TheItem, aNode->Value()) ) {
      aNode = (TCollection_AVLNode*)aNode->Left();
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsLower : Left : " << hex
             << aNode << dec << endl ;
#endif
    }
    else if ( TheComparator.IsGreater(TheItem, aNode->Value()) ) {
      aNode = (TCollection_AVLNode*)aNode->Right();
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsGreater : Right : " << hex
             << aNode << dec << endl ;
#endif
    }
    else {
#if K_TRACE_A_METHOD
      if ( K_Trace_a_Method )
        cout << "TCollection_AVLSearchTree::Find IsEqual : " << hex << aNode
             << dec << endl ;
#endif
      break;
    }
  }
  if ( aNode ) {
    TheOrig = aNode->Value();
#if TCollection_AVLSearchTreeTrace
    cout << "FOUND " << aNode->Value()->PForMapOfMethods()->Name() << endl ;
#endif
    return Standard_True;
  }
#if TCollection_AVLSearchTreeTrace
  cout << " NOT FOUND" << endl ;
#endif
  return Standard_False;

}

//----------------------------------------------------------------------------
// RotateRight
//-----------------------------------------------------------------------------
void TCollection_AVLSearchTree::RotateRight(Standard_Address& TheNode) const 
{
// the left child becomes the parent...
  TCollection_AVLNode* Temp               = (TCollection_AVLNode*)((TCollection_AVLNode *)TheNode)->Left();
  ((TCollection_AVLNode *)TheNode)->Left()  = Temp->Right();
  Temp->Right()                 = (TCollection_AVLNode *)TheNode;
  TheNode                     = (Standard_Address)Temp;
}

//-----------------------------------------------------------------------------
// RotateLeft
//-----------------------------------------------------------------------------
void TCollection_AVLSearchTree::
                      RotateLeft(Standard_Address& TheNode) const 
{
// the right child becomes the parent...
  TCollection_AVLNode* Temp               = (TCollection_AVLNode*)((TCollection_AVLNode *)TheNode)->Right();
  ((TCollection_AVLNode *)TheNode)->Right() = Temp->Left();
  Temp->Left()                  = (TCollection_AVLNode *)TheNode;
  TheNode                     = (Standard_Address)Temp;
}

//-----------------------------------------------------------------------------
// LeftBalance
//-----------------------------------------------------------------------------
void TCollection_AVLSearchTree::LeftBalance(Standard_Address& Root) const 
{
  TCollection_AVLNode* TheNode = (TCollection_AVLNode*)((TCollection_AVLNode*)Root)->Left();
  if( TCollection_AVLNode::Height(TheNode->Left()) >= TCollection_AVLNode::Height(TheNode->Right()) )  {
    RotateRight(Root);
    return;
  }
  Standard_Address Ptr = TheNode;
  RotateLeft(Ptr);
  TheNode     = (TCollection_AVLNode*)Ptr;
  ((TCollection_AVLNode*)Root)->Left() = TheNode;
  RotateRight(Root);
}

//----------------------------------------------------------------------------
// RightBalance
//-----------------------------------------------------------------------------
void TCollection_AVLSearchTree::RightBalance(Standard_Address& Root) const 
{
  TCollection_AVLNode* TheNode = (TCollection_AVLNode*)((TCollection_AVLNode *)Root)->Right();
  if( TCollection_AVLNode::Height(TheNode->Right()) >= TCollection_AVLNode::Height(TheNode->Left())) {
    RotateLeft(Root);
    return;
  }
  Standard_Address Ptr = TheNode;
  RotateRight(Ptr);
  TheNode     = (TCollection_AVLNode*)Ptr;
  ((TCollection_AVLNode*)Root)->Right() = TheNode;
  RotateLeft(Root);
}

//-----------------------------------------------------------------------------
// InsertBalance
//-----------------------------------------------------------------------------
Standard_Boolean TCollection_AVLSearchTree::InsertBalance(Standard_Address& Child,
                                           const Standard_Address Father,
		                           const TCollection_Side     theSide) const 
{
// Balance after insertion
  switch (TCollection_AVLNode::Height(((TCollection_AVLNode*)Child)->Left()) - 
          TCollection_AVLNode::Height(((TCollection_AVLNode*)Child)->Right())) {
        case 2  : LeftBalance(Child);
                  if ( Father ) 
                     ((TCollection_AVLNode*)Father)->SetChild((TCollection_AVLNode*)Child, theSide);
                  return Standard_False;
        case -2 : RightBalance(Child);
                  if ( Father ) 
                     ((TCollection_AVLNode*)Father)->SetChild((TCollection_AVLNode*)Child, theSide);
                  return Standard_False;
        case 0  : return Standard_False;
        default : return Standard_True;
  }
}

//----------------------------------------------------------------------------
// RemoveBalance
//-----------------------------------------------------------------------------
Standard_Boolean TCollection_AVLSearchTree::
                           RemoveBalance(Standard_Address& Child, 
                                   const Standard_Address Father,
                  	           const TCollection_Side    theSide) const 
{
// Balance after Remove           
  switch (TCollection_AVLNode::Height(((TCollection_AVLNode*)Child)->Left()) - 
          TCollection_AVLNode::Height(((TCollection_AVLNode*)Child)->Right())) {
         case 2  : LeftBalance(Child);
                   if (Father) 
                      ((TCollection_AVLNode*)Father)->SetChild((TCollection_AVLNode*)Child, theSide);
	           return Standard_True;
         case -2 : RightBalance(Child);
                   if ( Father ) 
                      ((TCollection_AVLNode*)Father)->SetChild((TCollection_AVLNode*)Child, theSide);
	           return Standard_True;
	 default : return Standard_True;
         }
}

//---------------------------------------------------------------------------
// RecursiveInsert
//-----------------------------------------------------------------------------
Standard_Boolean TCollection_AVLSearchTree::
                           RecursiveInsert(
				Standard_Address& Child,
                                    const  Standard_Address  Father,
				    const  TCollection_Side     theSide,
                                    const  Item&    theItem,
                                           Standard_Boolean& forOnce) const 
{

  TCollection_AVLNode* Temp;
// DEC C++ need
  Standard_Address MyTemp;
// end of DEC C++ need
  Standard_Boolean  Result = Standard_False;
  Standard_Integer  Number;

  //-- Firstly find where the item should be insert 

  if(TheComparator.IsLower(theItem, ((TCollection_AVLNode*)Child)->Value() ) ) 
  //---------------
  //-- If the item is lower than the root go to left child

    {
    Temp = (TCollection_AVLNode*)((TCollection_AVLNode*)Child)->Left();
    //-- If it's a leaf insert it
    if ( ! Temp ) {
      ((TCollection_AVLNode*)Child)->Left() = new TCollection_AVLNode(theItem,(TCollection_AVLNode*)0L,(TCollection_AVLNode*)0L);
      return Standard_True;
    }
    //-- else recursive insert...
    MyTemp = (Standard_Address)Temp;
    Result = RecursiveInsert( MyTemp, Child, TCollection_Left,
                               theItem, forOnce);
    //-- and rebuild the tree, if no problem.
    if(Result) return InsertBalance(Child, Father, theSide) ;
    else return Standard_False;
    }

  else if (TheComparator.IsGreater(theItem, ((TCollection_AVLNode*)Child)->Value())) 
  //---------------
  //-- If the item is greater than the root go to right child

    {
    Temp = (TCollection_AVLNode*)((TCollection_AVLNode*)Child)->Right();
    //-- If it's a leaf insert it
    if ( ! Temp ) {
      ((TCollection_AVLNode*)Child)->Right() = new TCollection_AVLNode(theItem,(TCollection_AVLNode*)0L,(TCollection_AVLNode*)0L); 
      return Standard_True;
    }
    //-- else recursive insert...

    MyTemp = (Standard_Address)Temp;
    Result = RecursiveInsert( MyTemp, Child, TCollection_Right, 
                               theItem, forOnce);
    //-- and rebuild the tree, if no problem.
    if(Result) return InsertBalance(Child, Father, theSide);
    else  return Standard_False;
    }

  else 
    {
  //--------------
  //--  Item is already there; add 1 to its count
    if (forOnce) {
      forOnce = Standard_False;
    }
    else {
      Number = ((TCollection_AVLNode*)Child)->Count();
      ((TCollection_AVLNode*)Child)->Count() = ++Number;
    }
    return Standard_False;
  }
}

//-----------------------------------------------------------------------------
// RecursiveRemove
//-----------------------------------------------------------------------------
Standard_Boolean TCollection_AVLSearchTree::RecursiveRemove(
                                       Standard_Address& Child, 
                                 const Standard_Address  Father, 
		                 const TCollection_Side     theSide,
                                 const Item&    TheItem,
			         const Standard_Boolean  ForAll) const 
{
  Standard_Boolean Result;

  if ( ! Child ) Standard_NoSuchObject::Raise();// if Child points to something

  TCollection_AVLNode* TheLeft  = (TCollection_AVLNode*)((TCollection_AVLNode*)Child)->Left(); // left children
  TCollection_AVLNode* TheRight = (TCollection_AVLNode*)((TCollection_AVLNode*)Child)->Right();// right children
// DEC C++ need
   Standard_Address MyTheLeft;
   Standard_Address MyTheRight;
//
  if (TheComparator.IsLower(TheItem,((TCollection_AVLNode*)Child)->Value())) 
  {                                            // TheItem < Value
    MyTheLeft = (Standard_Address)TheLeft;
    Result = RecursiveRemove(	    MyTheLeft, // left child becomes root
                                      Child  , // child becomes father
                             TCollection_Left, // go to left
	         	     TheItem         , // same Item
                             ForAll);
  }
  else if (TheComparator.IsGreater(TheItem,(((TCollection_AVLNode*)Child)->Value()))) 
  {                                            // TheItem > Value
    MyTheRight = (Standard_Address)TheRight;
    Result = RecursiveRemove(       MyTheRight,// right child becomes root 
                                         Child,// child becomes father 
                             TCollection_Right,// go to right 
                             TheItem          ,// same Item 
                             ForAll);
  }
  else 
  {                        
     //-- The Item has been found
     ((TCollection_AVLNode*)Child)->Count()--;
     //-- Is it necessary to remove it ?
     if (!ForAll && ((TCollection_AVLNode*)Child)->Count() > 0) return Standard_True;
     //-- In this case we must remove it and rebuild the subtree.
     if ( TheLeft && TheRight ) 
      {
      //-- The subtree has 2 children
      TCollection_AVLNode* T;
      TCollection_AVLNode* Temp = TheRight; // From the right child go to 
      while ( Temp ) {          // the left leaf
        T    = Temp;
        Temp = (TCollection_AVLNode*)Temp->Left();
      }
      //-- We have the left leaf. Push it at the same level than the
      //-- node we have removed.
      ((TCollection_AVLNode*)Child)->Value() = T->Value() ;
      ((TCollection_AVLNode*)Child)->Count() = T->Count() ;
      //-- Now we must remove in the right subtree this value; because
      //-- now it appears twice.
      MyTheRight = (Standard_Address)TheRight;
      Result = RecursiveRemove( MyTheRight, Child, TCollection_Right, 
                                ((TCollection_AVLNode*)Child)->Value(), ForAll);
      }
     else 
      {
      //-- only one subtree exists (left OR right)
      //-- First delete the node
      delete ((TCollection_AVLNode*)Child);
      //-- Secondly see what is the child not empty
      if ( ! TheLeft ) { Child = (Standard_Address) TheRight; }
      else             { Child = (Standard_Address) TheLeft;  }
      //-- Thirdly update the father node
// "mip-avril-94 : if (Father is null) => Raise" 
//    ((TCollection_AVLNode*)Father)->SetChild((TCollection_AVLNode*)Child, theSide);
      if ((TCollection_AVLNode*)Father != NULL) 
             ((TCollection_AVLNode*)Father)->SetChild((TCollection_AVLNode*)Child, theSide);
      return Standard_True;
      }
  }
  //-- Result = Standard_True means we must reorder the tree.
  if (Result) return RemoveBalance(Child, Father, theSide);
  return Standard_False;   //     Child has not been found for now
       
}

//----------------------------------------------------------------------------
// Insert
//-----------------------------------------------------------------------------
void TCollection_AVLSearchTree::Insert (const Item& theItem)
{
  if ( ! TheRoot ) {
     TheRoot = new TCollection_AVLNode(theItem,(TCollection_AVLNode*)0L,(TCollection_AVLNode*)0L);
     return;
  }
  TCollection_AVLNode* Father = NULL;
  Standard_Boolean forOnce = Standard_False;
  RecursiveInsert( TheRoot, (Standard_Address)Father, TCollection_Left, theItem, 
                   forOnce);
}

//-----------------------------------------------------------------------------
// InsertOnce
//-----------------------------------------------------------------------------
Standard_Boolean TCollection_AVLSearchTree::InsertOnce (const Item& theItem)
{
  if ( ! TheRoot ) {
    TheRoot = new TCollection_AVLNode(theItem,(TCollection_AVLNode*)0L,(TCollection_AVLNode*)0L);
    return Standard_True;
  }
  TCollection_AVLNode* Father  = NULL;
  Standard_Boolean  forOnce = Standard_True;
  RecursiveInsert( TheRoot, (Standard_Address)Father, TCollection_Left, theItem, 
                   forOnce);
  //-- forOnce = Standard_False if the item was already in the tree
  return forOnce;
}

//-----------------------------------------------------------------------------
// Remove
//-----------------------------------------------------------------------------
void TCollection_AVLSearchTree::Remove (const Item& theItem) 
{
  TCollection_AVLNode* Father = NULL;
  //-- remove ONLY ONE item of the tree
  RecursiveRemove( TheRoot, (Standard_Address)Father, TCollection_Left, theItem,Standard_False);
}

//----------------------------------------------------------------------------
// RemoveAll
//-----------------------------------------------------------------------------
void TCollection_AVLSearchTree::RemoveAll (const Item& theItem) 
{
  TCollection_AVLNode* Father = NULL;
  //-- Remove ALL item of the tree
  RecursiveRemove( TheRoot, (Standard_Address)Father, TCollection_Left, theItem,Standard_True);
}

//----------------------------------------------------------------------------
// Merge
//-----------------------------------------------------------------------------
TCollection_AVLSearchTree TCollection_AVLSearchTree::Merge(const TCollection_AVLSearchTree& aTree) const 
{
  Item theItem;
  // First, make a shallowcopy and push the result into a new tree
  //
  TCollection_AVLSearchTree newTree = ShallowCopy();
  // for test-- newTree.ShallowDump(cout);
  //
  TCollection_AVLIterator Iter( aTree );
  //-- Secondly, make an iterator on the second tree
  //
  while( Iter.More()) {
    //-- Thirdly get back its value
    //  theItem = ((TCollection_AVLNode*)Iter.Value())->Value();
    //
    theItem = Iter.Value();
    
    //-- and push them into the new tree.
    //
    newTree.Insert(theItem);
    Iter.Next();
  }

  return newTree;
}

//----------------------------------------------------------------------------
// ShallowCopy 
//-----------------------------------------------------------------------------
TCollection_AVLSearchTree TCollection_AVLSearchTree::ShallowCopy() const 
{
  // Construct a new tree
  // with same comparator
  //
  TCollection_AVLSearchTree newtree (TheComparator); 
                         
  // Copy an TCollection_AVLNode and put
  // the result as root of new tree  
  //
  newtree.SetRoot(TCollection_AVLNode::Copy((TCollection_AVLNode*)TheRoot)) ; 

  return newtree;                           
}