/usr/include/oce/NCollection_Map.hxx is in liboce-foundation-dev 0.17.2-2.
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// Created by: Alexander KARTOMIN (akm)
// Copyright (c) 2002-2014 OPEN CASCADE SAS
//
// This file is part of Open CASCADE Technology software library.
//
// This library is free software; you can redistribute it and/or modify it under
// the terms of the GNU Lesser General Public License version 2.1 as published
// by the Free Software Foundation, with special exception defined in the file
// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
// distribution for complete text of the license and disclaimer of any warranty.
//
// Alternatively, this file may be used under the terms of Open CASCADE
// commercial license or contractual agreement.
#ifndef NCollection_Map_HeaderFile
#define NCollection_Map_HeaderFile
#include <NCollection_BaseMap.hxx>
#include <NCollection_DataMap.hxx>
#include <NCollection_TListNode.hxx>
#include <NCollection_StlIterator.hxx>
#include <NCollection_DefaultHasher.hxx>
#include <Standard_ImmutableObject.hxx>
#include <Standard_NoSuchObject.hxx>
/**
* Purpose: Single hashed Map. This Map is used to store and
* retrieve keys in linear time.
*
* The ::Iterator class can be used to explore the
* content of the map. It is not wise to iterate and
* modify a map in parallel.
*
* To compute the hashcode of the key the function
* ::HashCode must be defined in the global namespace
*
* To compare two keys the function ::IsEqual must be
* defined in the global namespace.
*
* The performance of a Map is conditionned by its
* number of buckets that should be kept greater to
* the number of keys. This map has an automatic
* management of the number of buckets. It is resized
* when the number of Keys becomes greater than the
* number of buckets.
*
* If you have a fair idea of the number of objects
* you can save on automatic resizing by giving a
* number of buckets at creation or using the ReSize
* method. This should be consider only for crucial
* optimisation issues.
*/
template < class TheKeyType,
class Hasher = NCollection_DefaultHasher<TheKeyType> >
class NCollection_Map : public NCollection_BaseMap
{
//! Adaptation of the TListNode to the map notations
public:
class MapNode : public NCollection_TListNode<TheKeyType>
{
public:
//! Constructor with 'Next'
MapNode (const TheKeyType& theKey,
NCollection_ListNode* theNext) :
NCollection_TListNode<TheKeyType> (theKey, theNext) {}
//! Key
const TheKeyType& Key (void)
{ return this->Value(); }
};
public:
//! Implementation of the Iterator interface.
class Iterator : public NCollection_BaseMap::Iterator
{
public:
//! Empty constructor
Iterator (void) :
NCollection_BaseMap::Iterator() {}
//! Constructor
Iterator (const NCollection_Map& theMap) :
NCollection_BaseMap::Iterator(theMap) {}
//! Query if the end of collection is reached by iterator
Standard_Boolean More(void) const
{ return PMore(); }
//! Make a step along the collection
void Next(void)
{ PNext(); }
//! Value inquiry
const TheKeyType& Value(void) const
{
Standard_NoSuchObject_Raise_if (!More(), "NCollection_Map::Iterator::Value");
return ((MapNode *) myNode)->Value();
}
//! Value change access - denied
TheKeyType& ChangeValue(void) const
{
Standard_ImmutableObject::Raise("NCollection_Map::Iterator::ChangeValue");
return * (TheKeyType *) NULL; // For compiler
}
//! Key
const TheKeyType& Key (void) const
{
Standard_NoSuchObject_Raise_if (!More(), "NCollection_Map::Iterator::Key");
return ((MapNode *) myNode)->Value();
}
};
//! Shorthand for a constant iterator type.
typedef NCollection_StlIterator<std::forward_iterator_tag, Iterator, TheKeyType, true> const_iterator;
//! Returns a const iterator pointing to the first element in the map.
const_iterator cbegin() const { return Iterator (*this); }
//! Returns a const iterator referring to the past-the-end element in the map.
const_iterator cend() const { return Iterator(); }
public:
// ---------- PUBLIC METHODS ------------
//! Constructor
NCollection_Map (const Standard_Integer NbBuckets = 1,
const Handle(NCollection_BaseAllocator)& theAllocator = 0L) :
NCollection_BaseMap (NbBuckets, Standard_True, theAllocator) {}
//! Copy constructor
NCollection_Map (const NCollection_Map& theOther) :
NCollection_BaseMap (theOther.NbBuckets(), Standard_True, theOther.myAllocator)
{ *this = theOther; }
//! Exchange the content of two maps without re-allocations.
//! Notice that allocators will be swapped as well!
void Exchange (NCollection_Map& theOther)
{
this->exchangeMapsData (theOther);
}
//! Assign.
//! This method does not change the internal allocator.
NCollection_Map& Assign (const NCollection_Map& theOther)
{
if (this == &theOther)
return *this;
Clear();
ReSize (theOther.Extent()-1);
Iterator anIter(theOther);
for (; anIter.More(); anIter.Next())
Add (anIter.Key());
return *this;
}
//! Assign operator
NCollection_Map& operator= (const NCollection_Map& theOther)
{
return Assign(theOther);
}
//! ReSize
void ReSize (const Standard_Integer N)
{
NCollection_ListNode** newdata = 0L;
NCollection_ListNode** dummy = 0L;
Standard_Integer newBuck;
if (BeginResize (N, newBuck, newdata, dummy))
{
if (myData1)
{
MapNode** olddata = (MapNode**) myData1;
MapNode *p, *q;
Standard_Integer i,k;
for (i = 0; i <= NbBuckets(); i++)
{
if (olddata[i])
{
p = olddata[i];
while (p)
{
k = Hasher::HashCode(p->Key(),newBuck);
q = (MapNode*) p->Next();
p->Next() = newdata[k];
newdata[k] = p;
p = q;
}
}
}
}
EndResize (N, newBuck, newdata, dummy);
}
}
//! Add
Standard_Boolean Add(const TheKeyType& K)
{
if (Resizable())
ReSize(Extent());
MapNode** data = (MapNode**)myData1;
Standard_Integer k = Hasher::HashCode(K,NbBuckets());
MapNode* p = data[k];
while (p)
{
if (Hasher::IsEqual(p->Key(),K))
return Standard_False;
p = (MapNode *) p->Next();
}
data[k] = new (this->myAllocator) MapNode(K,data[k]);
Increment();
return Standard_True;
}
//! Added: add a new key if not yet in the map, and return
//! reference to either newly added or previously existing object
const TheKeyType& Added(const TheKeyType& K)
{
if (Resizable())
ReSize(Extent());
MapNode** data = (MapNode**)myData1;
Standard_Integer k = Hasher::HashCode(K,NbBuckets());
MapNode* p = data[k];
while (p)
{
if (Hasher::IsEqual(p->Key(),K))
return p->Key();
p = (MapNode *) p->Next();
}
data[k] = new (this->myAllocator) MapNode(K,data[k]);
Increment();
return data[k]->Key();
}
//! Contains
Standard_Boolean Contains(const TheKeyType& K) const
{
if (IsEmpty())
return Standard_False;
MapNode** data = (MapNode**) myData1;
MapNode* p = data[Hasher::HashCode(K,NbBuckets())];
while (p)
{
if (Hasher::IsEqual(p->Key(),K))
return Standard_True;
p = (MapNode *) p->Next();
}
return Standard_False;
}
//! Remove
Standard_Boolean Remove(const TheKeyType& K)
{
if (IsEmpty())
return Standard_False;
MapNode** data = (MapNode**) myData1;
Standard_Integer k = Hasher::HashCode(K,NbBuckets());
MapNode* p = data[k];
MapNode* q = NULL;
while (p)
{
if (Hasher::IsEqual(p->Key(),K))
{
Decrement();
if (q)
q->Next() = p->Next();
else
data[k] = (MapNode*) p->Next();
p->~MapNode();
this->myAllocator->Free(p);
return Standard_True;
}
q = p;
p = (MapNode*) p->Next();
}
return Standard_False;
}
//! Clear data. If doReleaseMemory is false then the table of
//! buckets is not released and will be reused.
void Clear(const Standard_Boolean doReleaseMemory = Standard_True)
{ Destroy (MapNode::delNode, doReleaseMemory); }
//! Clear data and reset allocator
void Clear (const Handle(NCollection_BaseAllocator)& theAllocator)
{
Clear();
this->myAllocator = ( ! theAllocator.IsNull() ? theAllocator :
NCollection_BaseAllocator::CommonBaseAllocator() );
}
//! Destructor
~NCollection_Map (void)
{ Clear(); }
//! Size
Standard_Integer Size(void) const
{ return Extent(); }
public:
//!@name Boolean operations with maps as sets of keys
//!@{
//! @return true if two maps contains exactly the same keys
Standard_Boolean IsEqual (const NCollection_Map& theOther) const
{
return Extent() == theOther.Extent()
&& Contains (theOther);
}
//! @return true if this map contains ALL keys of another map.
Standard_Boolean Contains (const NCollection_Map& theOther) const
{
if (this == &theOther
|| theOther.IsEmpty())
{
return Standard_True;
}
else if (Extent() < theOther.Extent())
{
return Standard_False;
}
for (Iterator anIter (theOther); anIter.More(); anIter.Next())
{
if (!Contains (anIter.Key()))
{
return Standard_False;
}
}
return Standard_True;
}
//! Sets this Map to be the result of union (aka addition, fuse, merge, boolean OR) operation between two given Maps
//! The new Map contains the values that are contained either in the first map or in the second map or in both.
//! All previous content of this Map is cleared.
//! This map (result of the boolean operation) can also be passed as one of operands.
void Union (const NCollection_Map& theLeft,
const NCollection_Map& theRight)
{
if (&theLeft == &theRight)
{
Assign (theLeft);
return;
}
if (this != &theLeft
&& this != &theRight)
{
Clear();
}
if (this != &theLeft)
{
for (Iterator anIter (theLeft); anIter.More(); anIter.Next())
{
Add (anIter.Key());
}
}
if (this != &theRight)
{
for (Iterator anIter (theRight); anIter.More(); anIter.Next())
{
Add (anIter.Key());
}
}
}
//! Apply to this Map the boolean operation union (aka addition, fuse, merge, boolean OR) with another (given) Map.
//! The result contains the values that were previously contained in this map or contained in the given (operand) map.
//! This algorithm is similar to method Union().
//! Returns True if contents of this map is changed.
Standard_Boolean Unite (const NCollection_Map& theOther)
{
if (this == &theOther)
{
return Standard_False;
}
const Standard_Integer anOldExtent = Extent();
Union (*this, theOther);
return anOldExtent != Extent();
}
//! Sets this Map to be the result of intersection (aka multiplication, common, boolean AND) operation between two given Maps.
//! The new Map contains only the values that are contained in both map operands.
//! All previous content of this Map is cleared.
//! This same map (result of the boolean operation) can also be used as one of operands.
void Intersection (const NCollection_Map& theLeft,
const NCollection_Map& theRight)
{
if (&theLeft == &theRight)
{
Assign (theLeft);
return;
}
if (this == &theLeft)
{
NCollection_Map aCopy (1, this->myAllocator);
Exchange (aCopy);
Intersection (aCopy, theRight);
return;
}
else if (this == &theRight)
{
NCollection_Map aCopy (1, this->myAllocator);
Exchange (aCopy);
Intersection (theLeft, aCopy);
return;
}
Clear();
if (theLeft.Extent() < theRight.Extent())
{
for (Iterator anIter (theLeft); anIter.More(); anIter.Next())
{
if (theRight.Contains (anIter.Key()))
{
Add (anIter.Key());
}
}
}
else
{
for (Iterator anIter (theRight); anIter.More(); anIter.Next())
{
if (theLeft.Contains (anIter.Key()))
{
Add (anIter.Key());
}
}
}
}
//! Apply to this Map the intersection operation (aka multiplication, common, boolean AND) with another (given) Map.
//! The result contains only the values that are contained in both this and the given maps.
//! This algorithm is similar to method Intersection().
//! Returns True if contents of this map is changed.
Standard_Boolean Intersect (const NCollection_Map& theOther)
{
if (this == &theOther
|| IsEmpty())
{
return Standard_False;
}
const Standard_Integer anOldExtent = Extent();
Intersection (*this, theOther);
return anOldExtent != Extent();
}
//! Sets this Map to be the result of subtraction (aka set-theoretic difference, relative complement,
//! exclude, cut, boolean NOT) operation between two given Maps.
//! The new Map contains only the values that are contained in the first map operands and not contained in the second one.
//! All previous content of this Map is cleared.
void Subtraction (const NCollection_Map& theLeft,
const NCollection_Map& theRight)
{
if (this == &theLeft)
{
Subtract (theRight);
return;
}
else if (this == &theRight)
{
NCollection_Map aCopy (1, this->myAllocator);
Exchange (aCopy);
Subtraction (theLeft, aCopy);
return;
}
Assign (theLeft);
Subtract (theRight);
}
//! Apply to this Map the subtraction (aka set-theoretic difference, relative complement,
//! exclude, cut, boolean NOT) operation with another (given) Map.
//! The result contains only the values that were previously contained in this map and not contained in this map.
//! This algorithm is similar to method Subtract() with two operands.
//! Returns True if contents of this map is changed.
Standard_Boolean Subtract (const NCollection_Map& theOther)
{
if (this == &theOther)
{
if (IsEmpty())
{
return Standard_False;
}
Clear();
return Standard_True;
}
const Standard_Integer anOldExtent = Extent();
for (Iterator anIter (theOther); anIter.More(); anIter.Next())
{
Remove (anIter.Key());
}
return anOldExtent != Extent();
}
//! Sets this Map to be the result of symmetric difference (aka exclusive disjunction, boolean XOR) operation between two given Maps.
//! The new Map contains the values that are contained only in the first or the second operand maps but not in both.
//! All previous content of this Map is cleared. This map (result of the boolean operation) can also be used as one of operands.
void Difference (const NCollection_Map& theLeft,
const NCollection_Map& theRight)
{
if (&theLeft == &theRight)
{
Clear();
return;
}
else if (this == &theLeft)
{
NCollection_Map aCopy (1, this->myAllocator);
Exchange (aCopy);
Difference (aCopy, theRight);
return;
}
else if (this == &theRight)
{
NCollection_Map aCopy (1, this->myAllocator);
Exchange (aCopy);
Difference (theLeft, aCopy);
return;
}
Clear();
for (Iterator anIter (theLeft); anIter.More(); anIter.Next())
{
if (!theRight.Contains (anIter.Key()))
{
Add (anIter.Key());
}
}
for (Iterator anIter (theRight); anIter.More(); anIter.Next())
{
if (!theLeft.Contains (anIter.Key()))
{
Add (anIter.Key());
}
}
}
//! Apply to this Map the symmetric difference (aka exclusive disjunction, boolean XOR) operation with another (given) Map.
//! The result contains the values that are contained only in this or the operand map, but not in both.
//! This algorithm is similar to method Difference().
//! Returns True if contents of this map is changed.
Standard_Boolean Differ (const NCollection_Map& theOther)
{
if (this == &theOther)
{
if (IsEmpty())
{
return Standard_False;
}
Clear();
return Standard_True;
}
const Standard_Integer anOldExtent = Extent();
Difference (*this, theOther);
return anOldExtent != Extent();
}
//!@}
};
#endif
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