mirror of
https://github.com/ioquake/jedi-academy.git
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751 lines
No EOL
21 KiB
C++
751 lines
No EOL
21 KiB
C++
////////////////////////////////////////////////////////////////////////////////////////
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// RAVEN STANDARD TEMPLATE LIBRARY
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// (c) 2002 Activision
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//
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//
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// List
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// ----
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// The list class supports ordered insertion and deletion in O(1) constant time.
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// It simulates a linked list of pointers by allocating free spots in a pool and
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// maintaining "links" as indicies to the pool array objects.
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//
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//
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//
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// NOTES:
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//
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//
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//
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////////////////////////////////////////////////////////////////////////////////////////
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#if !defined(RATL_LIST_VS_INC)
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#define RATL_LIST_VS_INC
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////////////////////////////////////////////////////////////////////////////////////////
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// Includes
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////////////////////////////////////////////////////////////////////////////////////////
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#if defined(RA_DEBUG_LINKING)
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#pragma message("...including list_vs.h")
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#endif
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#if !defined(RATL_COMMON_INC)
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#include "ratl_common.h"
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#endif
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#if !defined(RATL_POOL_VS_INC)
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#include "pool_vs.h"
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#endif
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namespace ratl
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{
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// this is private to the list, but you have no access to it, soooo..
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class list_node
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{
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public:
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int mNext;
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int mPrev;
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};
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////////////////////////////////////////////////////////////////////////////////////////
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// The List Class
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////////////////////////////////////////////////////////////////////////////////////////
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template <class T>
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class list_base : public ratl_base
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{
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public:
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typedef typename T TStorageTraits;
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typedef typename T::TValue TTValue;
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////////////////////////////////////////////////////////////////////////////////////
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// Capacity Enum
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////////////////////////////////////////////////////////////////////////////////////
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enum
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{
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CAPACITY = T::CAPACITY
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};
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private:
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////////////////////////////////////////////////////////////////////////////////////
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// Data
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////////////////////////////////////////////////////////////////////////////////////
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pool_base<TStorageTraits> mPool; // The Allocation Data Pool
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int mFront; // The Beginning Of The List
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int mBack; // The End Of The List
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enum
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{
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NULL_NODE = -1
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};
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public:
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////////////////////////////////////////////////////////////////////////////////////
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// Constructor
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////////////////////////////////////////////////////////////////////////////////////
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list_base() : mFront(NULL_NODE), mBack(NULL_NODE)
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{
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}
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////////////////////////////////////////////////////////////////////////////////////
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// How Many Objects Are In This List
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////////////////////////////////////////////////////////////////////////////////////
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int size() const
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{
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return (mPool.size());
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Are There Any Objects In This List?
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////////////////////////////////////////////////////////////////////////////////////
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bool empty() const
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{
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assert(mFront!=NULL_NODE || size()==0);
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return (mFront==NULL_NODE);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Is This List Filled?
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////////////////////////////////////////////////////////////////////////////////////
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bool full() const
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{
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return (mPool.full());
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Clear All Elements
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////////////////////////////////////////////////////////////////////////////////////
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void clear()
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{
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mFront = NULL_NODE;
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mBack = NULL_NODE;
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mPool.clear();
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Get The First Object In The List
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////////////////////////////////////////////////////////////////////////////////////
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TTValue & front()
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{
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assert(mFront!=NULL_NODE); // this is empty
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return mPool[mFront];
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Get The Last Object In The List
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////////////////////////////////////////////////////////////////////////////////////
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TTValue & back()
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{
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assert(mBack!=NULL_NODE);
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return mPool[mBack];
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Get The First Object In The List
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////////////////////////////////////////////////////////////////////////////////////
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const TTValue & front() const
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{
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assert(mFront!=NULL_NODE); // this is empty
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return mPool[mFront];
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Get The Last Object In The List
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////////////////////////////////////////////////////////////////////////////////////
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const TTValue & back() const
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{
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assert(mBack!=NULL_NODE);
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return mPool[mBack];
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}
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public:
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator
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////////////////////////////////////////////////////////////////////////////////////
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class const_iterator;
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class iterator
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{
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friend class list_base<T>;
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friend class const_iterator;
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int mLoc;
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list_base<T>* mOwner;
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public:
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// Constructors
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//--------------
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iterator() : mOwner(0), mLoc(0)
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{}
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iterator(list_base* p, int t) : mOwner(p), mLoc(t)
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{}
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iterator(const iterator &t) : mOwner(t.mOwner), mLoc(t.mLoc)
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{}
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// Assignment Operator
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//---------------------
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void operator= (const iterator &t)
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{
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mOwner = t.mOwner;
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mLoc = t.mLoc;
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}
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// Equality Operators
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//--------------------
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bool operator!=(const iterator &t) const
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{
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return (mLoc!=t.mLoc || mOwner!=t.mOwner);
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}
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bool operator==(const iterator &t) const
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{
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return (mLoc==t.mLoc && mOwner==t.mOwner);
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}
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// DeReference Operator
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//----------------------
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TTValue& operator* () const
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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return (mOwner->mPool[mLoc]);
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}
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// DeReference Operator
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//----------------------
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TTValue& value() const
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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return (mOwner->mPool[mLoc]);
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}
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// DeReference Operator
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//----------------------
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TTValue* operator-> () const
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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return (&mOwner->mPool[mLoc]);
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}
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// prefix Inc Operator
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//--------------
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iterator operator++(int)
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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iterator old(*this);
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mLoc = T::node(mOwner->mPool[mLoc]).mNext;
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return old;
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}
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// postfix Inc Operator
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//--------------
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iterator operator++()
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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mLoc = T::node(mOwner->mPool[mLoc]).mNext;
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return *this;
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}
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// prefix Inc Operator
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//--------------
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iterator operator--(int)
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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iterator old(*this);
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mLoc = T::node(mOwner->mPool[mLoc]).mPrev;
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return old;
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}
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//--------------
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// postfix Dec Operator
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//--------------
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iterator operator--()
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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mLoc = T::node(mOwner->mPool[mLoc]).mPrev;
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return *this;
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}
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};
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////////////////////////////////////////////////////////////////////////////////////
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// Constant Iterator
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////////////////////////////////////////////////////////////////////////////////////
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class const_iterator
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{
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friend class list_base<T>;
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int mLoc;
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const list_base<T>* mOwner;
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public:
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// Constructors
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//--------------
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const_iterator() : mOwner(0), mLoc(0)
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{}
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const_iterator(const list_base* p, int t) : mOwner(p), mLoc(t)
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{}
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const_iterator(const const_iterator &t) : mOwner(t.mOwner), mLoc(t.mLoc)
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{}
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const_iterator(const iterator &t) : mOwner(t.mOwner), mLoc(t.mLoc)
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{}
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// Assignment Operator
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//---------------------
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void operator= (const const_iterator &t)
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{
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mOwner = t.mOwner;
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mLoc = t.mLoc;
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}
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// Assignment Operator
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//---------------------
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void operator= (const iterator &t)
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{
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mOwner = t.mOwner;
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mLoc = t.mLoc;
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}
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// Equality Operators
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//--------------------
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bool operator!=(const iterator &t) const
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{
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return (mLoc!=t.mLoc || mOwner!=t.mOwner);
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}
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bool operator==(const iterator &t) const
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{
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return (mLoc==t.mLoc && mOwner==t.mOwner);
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}
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// Equality Operators
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//--------------------
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bool operator!=(const const_iterator &t) const
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{
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return (mLoc!=t.mLoc || mOwner!=t.mOwner);
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}
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bool operator==(const const_iterator &t) const
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{
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return (mLoc==t.mLoc && mOwner==t.mOwner);
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}
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// DeReference Operator
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//----------------------
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const TTValue& operator* () const
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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return (mOwner->mPool[mLoc]);
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}
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// DeReference Operator
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//----------------------
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const TTValue* operator-> () const
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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return (&mOwner->mPool[mLoc]);
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}
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// DeReference Operator
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//----------------------
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const TTValue& value() const
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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return (mOwner->mPool[mLoc]);
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}
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// prefix Inc Operator
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//--------------
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const_iterator operator++(int)
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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const_iterator old(*this);
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mLoc = T::node(mOwner->mPool[mLoc]).mNext;
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return old;
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}
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// postfix Inc Operator
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//--------------
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const_iterator operator++()
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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mLoc = T::node(mOwner->mPool[mLoc]).mNext;
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return *this;
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}
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// prefix Inc Operator
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//--------------
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const_iterator operator--(int)
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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const_iterator old(*this);
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mLoc = T::node(mOwner->mPool[mLoc]).mPrev;
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return old;
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}
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//--------------
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// postfix Dec Operator
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//--------------
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const_iterator operator--()
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{
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assert(mLoc>=0 && mLoc<T::CAPACITY);
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mLoc = T::node(mOwner->mPool[mLoc]).mPrev;
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return *this;
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}
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};
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friend class iterator;
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friend class const_iterator;
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Begin (Starts At Address mFront)
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////////////////////////////////////////////////////////////////////////////////////
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iterator begin()
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{
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return iterator(this, mFront);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Begin (Starts At Address mFront)
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////////////////////////////////////////////////////////////////////////////////////
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const_iterator begin() const
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{
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return const_iterator(this, mFront);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Reverse Iterator Begin (Starts At Address mBack)
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////////////////////////////////////////////////////////////////////////////////////
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iterator rbegin()
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{
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return iterator(this, mBack);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Reverse Iterator Begin (Starts At Address mBack)
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////////////////////////////////////////////////////////////////////////////////////
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const_iterator rbegin() const
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{
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return const_iterator(this, mBack);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator End (Set To Address NULL_NODE) Should Work For Forward & Backward Iteration
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////////////////////////////////////////////////////////////////////////////////////
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iterator end()
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{
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return iterator(this, NULL_NODE);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator End (Set To Address NULL_NODE) Should Work For Forward & Backward Iteration
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////////////////////////////////////////////////////////////////////////////////////
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const_iterator end() const
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{
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return const_iterator(this, NULL_NODE);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Insert (BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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T& insert(const iterator& it)
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{
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int nNew= mPool.alloc();
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insert_low(it,nNew);
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return mPool[mNew];
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Insert Value(BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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void insert(const iterator& it, const TTValue& val)
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{
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int nNew= mPool.alloc(val);
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insert_low(it,nNew);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Insert Raw(BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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TRatlNew* insert_raw(const iterator& it)
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{
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TRatlNew *ret = mPool.alloc_raw();
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insert_low(it,mPool.pointer_to_index(ret));
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return ret;
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Insert (AFTER POINTED ELEMENT) (ALSO - NOT CONSTANT, WILL CHANGE it)
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////////////////////////////////////////////////////////////////////////////////////
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T& insert_after(iterator& it)
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{
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int nNew= mPool.alloc();
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insert_low_after(it,nNew);
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it = iterator(this, nNew);
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return mPool[mNew];
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Insert Value(AFTER POINTED ELEMENT) (ALSO - NOT CONSTANT, WILL CHANGE it)
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////////////////////////////////////////////////////////////////////////////////////
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void insert_after(iterator& it, const TTValue& val)
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{
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int nNew= mPool.alloc(val);
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insert_low_after(it,nNew);
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it = iterator(this, nNew);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Insert Raw(AFTER POINTED ELEMENT) (ALSO - NOT CONSTANT, WILL CHANGE it)
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////////////////////////////////////////////////////////////////////////////////////
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TRatlNew* insert_raw_after(iterator& it)
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{
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TRatlNew *ret = mPool.alloc_raw();
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insert_low_after(it,mPool.pointer_to_index(ret));
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it = iterator(this, mPool.pointer_to_index(ret));
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return ret;
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Front Insert (BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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T& push_front()
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{
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int nNew= mPool.alloc();
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insert_low(begin(),nNew);
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return mPool[mNew];
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Front Insert Value(BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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void push_front(const TTValue& val)
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{
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int nNew= mPool.alloc(val);
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insert_low(begin(),nNew);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Front Insert Raw(BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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TRatlNew * push_front_raw()
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{
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TRatlNew *ret = mPool.alloc_raw();
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insert_low(begin(),mPool.pointer_to_index(ret));
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return ret;
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Front Insert (BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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T& push_back()
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{
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int nNew= mPool.alloc();
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insert_low(end(),nNew);
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return mPool[mNew];
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Front Insert Value(BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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void push_back(const TTValue& val)
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{
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int nNew= mPool.alloc(val);
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insert_low(end(),nNew);
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Front Insert Raw(BEFORE POINTED ELEMENT)
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////////////////////////////////////////////////////////////////////////////////////
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TRatlNew * push_back_raw()
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{
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TRatlNew *ret = mPool.alloc_raw();
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insert_low(end(),mPool.pointer_to_index(ret));
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return ret;
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}
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Erase
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////////////////////////////////////////////////////////////////////////////////////
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void erase(iterator& it)
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{
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assert(it.mOwner==this); // Iterators must be mixed up, this is from a different list.
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assert(it.mLoc!=NULL_NODE);
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int At = it.mLoc;
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int Prev = T::node(mPool[At]).mPrev;
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int Next = T::node(mPool[At]).mNext;
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// LINK: (Prev)<-(At)--(Next)
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//--------------------------------------------
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if (Next!=NULL_NODE)
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{
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T::node(mPool[Next]).mPrev = Prev;
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}
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// LINK: (Prev)--(At)->(Next)
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//--------------------------------------------
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if (Prev!=NULL_NODE)
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{
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T::node(mPool[Prev]).mNext = Next;
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}
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// UPDATE: Front & Back
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//----------------------
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if (At==mBack)
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{
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mBack = Prev;
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}
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if (At==mFront)
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{
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mFront = Next;
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}
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// ERASE At
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//--------------------------------------------
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mPool.free(At);
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it.mLoc = Prev;
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}
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template<class CAST_TO>
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CAST_TO *verify_alloc(CAST_TO *p) const
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{
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return mPool.verify_alloc(p);
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}
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private:
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////////////////////////////////////////////////////////////////////////////////////
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// Iterator Insert, returns pool index
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////////////////////////////////////////////////////////////////////////////////////
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void insert_low(const iterator& it,int nNew)
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{
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assert(it.mOwner==this); // Iterators must be mixed up, this is from a different list.
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int Next = it.mLoc;
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int Prev = NULL_NODE;
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if (Next!=NULL_NODE)
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{
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Prev = T::node(mPool[Next]).mPrev;
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}
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else
|
|
{
|
|
Prev = mBack;
|
|
}
|
|
|
|
|
|
assert(nNew!=Next && nNew!=Prev);
|
|
|
|
|
|
// LINK: (Prev)<-(New)->(Next)
|
|
//--------------------------------------------
|
|
T::node(mPool[nNew]).mPrev = Prev;
|
|
T::node(mPool[nNew]).mNext = Next;
|
|
|
|
|
|
// LINK: (New)<-(Next)
|
|
//--------------------------------------------
|
|
if (Next!=NULL_NODE)
|
|
{
|
|
T::node(mPool[Next]).mPrev = nNew;
|
|
assert(T::node(mPool[Next]).mPrev!=T::node(mPool[Next]).mNext);
|
|
}
|
|
else
|
|
{
|
|
mBack = nNew;
|
|
}
|
|
|
|
|
|
// LINK: (Prev)->(New)
|
|
//--------------------------------------------
|
|
if (Prev!=NULL_NODE)
|
|
{
|
|
T::node(mPool[Prev]).mNext = nNew;
|
|
assert(T::node(mPool[Prev]).mPrev!=T::node(mPool[Prev]).mNext);
|
|
}
|
|
else
|
|
{
|
|
mFront = nNew;
|
|
}
|
|
}
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////////////////////
|
|
// Iterator Insert, returns pool index (AFTER POINTED ELEMENT)
|
|
////////////////////////////////////////////////////////////////////////////////////
|
|
void insert_low_after(const iterator& it,int nNew)
|
|
{
|
|
assert(it.mOwner==this); // Iterators must be mixed up, this is from a different list.
|
|
|
|
int Next = NULL_NODE;//it.mLoc;
|
|
int Prev = it.mLoc;//NULL_NODE;
|
|
if (Prev!=NULL_NODE)
|
|
{
|
|
Next = T::node(mPool[Prev]).mNext;
|
|
}
|
|
else
|
|
{
|
|
Prev = mFront;
|
|
}
|
|
|
|
|
|
assert(nNew!=Next && nNew!=Prev);
|
|
|
|
|
|
// LINK: (Prev)<-(New)->(Next)
|
|
//--------------------------------------------
|
|
T::node(mPool[nNew]).mPrev = Prev;
|
|
T::node(mPool[nNew]).mNext = Next;
|
|
|
|
|
|
// LINK: (New)<-(Next)
|
|
//--------------------------------------------
|
|
if (Next!=NULL_NODE)
|
|
{
|
|
T::node(mPool[Next]).mPrev = nNew;
|
|
assert(T::node(mPool[Next]).mPrev!=T::node(mPool[Next]).mNext);
|
|
}
|
|
else
|
|
{
|
|
mBack = nNew;
|
|
}
|
|
|
|
|
|
// LINK: (Prev)->(New)
|
|
//--------------------------------------------
|
|
if (Prev!=NULL_NODE)
|
|
{
|
|
T::node(mPool[Prev]).mNext = nNew;
|
|
assert(T::node(mPool[Prev]).mPrev!=T::node(mPool[Prev]).mNext);
|
|
}
|
|
else
|
|
{
|
|
mFront = nNew;
|
|
}
|
|
}
|
|
|
|
};
|
|
|
|
template<class T, int ARG_CAPACITY>
|
|
class list_vs : public list_base<storage::value_semantics_node<T,ARG_CAPACITY,list_node> >
|
|
{
|
|
public:
|
|
typedef typename storage::value_semantics_node<T,ARG_CAPACITY,list_node> TStorageTraits;
|
|
typedef typename TStorageTraits::TValue TTValue;
|
|
enum
|
|
{
|
|
CAPACITY = ARG_CAPACITY
|
|
};
|
|
list_vs() {}
|
|
};
|
|
|
|
template<class T, int ARG_CAPACITY>
|
|
class list_os : public list_base<storage::object_semantics_node<T,ARG_CAPACITY,list_node> >
|
|
{
|
|
public:
|
|
typedef typename storage::object_semantics_node<T,ARG_CAPACITY,list_node> TStorageTraits;
|
|
typedef typename TStorageTraits::TValue TTValue;
|
|
enum
|
|
{
|
|
CAPACITY = ARG_CAPACITY
|
|
};
|
|
list_os() {}
|
|
};
|
|
|
|
template<class T, int ARG_CAPACITY, int ARG_MAX_CLASS_SIZE>
|
|
class list_is : public list_base<storage::virtual_semantics_node<T,ARG_CAPACITY,ARG_MAX_CLASS_SIZE,list_node> >
|
|
{
|
|
public:
|
|
typedef typename storage::virtual_semantics_node<T,ARG_CAPACITY,ARG_MAX_CLASS_SIZE,list_node> TStorageTraits;
|
|
typedef typename TStorageTraits::TValue TTValue;
|
|
enum
|
|
{
|
|
CAPACITY = ARG_CAPACITY,
|
|
MAX_CLASS_SIZE = ARG_MAX_CLASS_SIZE
|
|
};
|
|
list_is() {}
|
|
};
|
|
|
|
}
|
|
#endif |