changed void* operator new (qse_size_t size, QSE::Mpool* mp) to fall back to mmgr upon size mismatch.
finished primitive BinaryHeap code. renamed Array::get() to Array::getValueAt() renamed Array::set() to Array::setValueAt()
This commit is contained in:
parent
fc316009b6
commit
efc997750e
@ -57,6 +57,8 @@ class Array: public Mmged
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public:
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typedef Array<T,RESIZER> SelfType;
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typedef ArrayResizer DefaultResizer;
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enum
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{
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DEFAULT_CAPACITY = 128,
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@ -229,21 +231,20 @@ public:
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return this->buffer[index];
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}
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T& get (qse_size_t index)
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T& getValueAtgetValueAt (qse_size_t index)
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{
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QSE_ASSERT (index < this->count);
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return this->buffer[index];
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}
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const T& get (qse_size_t index) const
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const T& getValueAt (qse_size_t index) const
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{
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QSE_ASSERT (index < this->count);
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return this->buffer[index];
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}
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void set (qse_size_t index, const T& value)
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void setValueAt (qse_size_t index, const T& value)
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{
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QSE_ASSERT (index < this->count);
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this->insert (index, value);
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}
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@ -383,6 +384,8 @@ public:
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void setCapacity (qse_size_t capa)
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{
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if (capa == this->capacity) return;
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if (capa <= 0)
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{
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this->clear (true);
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@ -395,15 +398,7 @@ public:
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if (cnt > capa) cnt = capa;
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T* tmp = this->clone_buffer (this->buffer, capa, cnt);
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// don't call this->clear(true) here. clear items only.
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this->clear_all_items ();
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// deallocate the current buffer;
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::operator delete (this->buffer, this->getMmgr());
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this->capacity = 0;
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this->buffer = QSE_NULL;
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this->clear (true);
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this->buffer = tmp;
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this->capacity = capa;
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this->count = cnt;
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@ -418,7 +413,8 @@ public:
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}
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}
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void trimToSize ()
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// The compact() function
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void compact ()
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{
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this->setCapacity (this->size);
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}
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@ -28,7 +28,7 @@
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#define _QSE_CMN_BINARYHEAP_HPP_
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///
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/// This file provides an array-based binary heap.
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/// This file provides a binary heap implementation.
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/// In the heap, each node is greater than or equal to its BinaryHeap
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///
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/// #include <qse/cmn/BinaryHeap.hpp>
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@ -60,7 +60,7 @@
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///
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/// while (heap.getSize() > 0)
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/// {
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/// printf ("%d\n", heap.getRootValue());
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/// printf ("%d\n", heap.getValueAt(0));
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/// heap.remove (0);
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/// }
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///
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@ -68,14 +68,13 @@
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/// }
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///
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#include <qse/Types.hpp>
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#include <qse/cmn/Mpool.hpp>
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#include <qse/cmn/Array.hpp>
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/////////////////////////////////
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QSE_BEGIN_NAMESPACE(QSE)
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/////////////////////////////////
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// greater-than comparator
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template <typename T>
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struct BinaryHeapComparator
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{
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@ -86,170 +85,92 @@ struct BinaryHeapComparator
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}
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};
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template<typename T>
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struct BinaryHeapAssigner
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{
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// The assignment proxy is used to get the value informed of its position
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// within the heap. This default implmentation, however, doesn't utilize
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// the position (index).
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T& operator() (T& v1, const T& v2, qse_size_t index) const
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{
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v1 = v2;
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return v1;
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}
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};
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struct BinaryHeapResizer
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{
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qse_size_t operator() (qse_size_t current) const
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{
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return (current < 5000)? (current + current):
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(current < 50000)? (current + (current / 2)):
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(current < 100000)? (current + (current / 4)):
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(current < 150000)? (current + (current / 8)):
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(current + (current / 16));
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}
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};
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typedef ArrayResizer BinaryHeapResizer;
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#define QSE_BINARY_HEAP_UP(x) (((x) - 1) / 2)
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#define QSE_BINARY_HEAP_LEFT(x) ((x) * 2 + 1)
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#define QSE_BINARY_HEAP_RIGHT(x) ((x) * 2 + 2)
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template <typename T, typename COMPARATOR = BinaryHeapComparator<T>, typename ASSIGNER = BinaryHeapAssigner<T>, RESIZER = TeeeHeapResizer >
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class BinaryHeap: public Mmged
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template <typename T, typename COMPARATOR = BinaryHeapComparator<T>, typename RESIZER = BinaryHeapResizer >
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class BinaryHeap: protected Array<T,RESIZER>
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{
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public:
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typedef BinaryHeap<T,COMPARATOR,ASSIGNER,RESIZER> SelfType;
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typedef BinaryHeap<T,COMPARATOR,RESIZER> SelfType;
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typedef Array<T,RESIZER> ParentType;
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typedef BinaryHeapComparator<T> DefaultComparator;
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typedef BinaryHeapResizer DefaultResizer;
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enum
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{
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DEFAULT_CAPACITY = 10,
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MIN_CAPACITY = 1
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DEFAULT_CAPACITY = ParentType::DEFAULT_CAPACITY,
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INVALID_INDEX = ParentType::INVALID_INDEX
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};
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BinaryHeap (Mmgr* mmgr = QSE_NULL,
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qse_size_t capacity = DEFAULT_CAPACITY,
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qse_size_t mpb_size = 0):
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Mmged (mmgr),
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mp (mmgr, QSE_SIZEOF(Node), mpb_size)
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BinaryHeap (Mmgr* mmgr = QSE_NULL, qse_size_t capacity = DEFAULT_CAPACITY):
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ParentType (mmgr, capacity)
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{
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if (capacity < MIN_CAPACITY) capacity = MIN_CAPACITY;
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this->capacity = capacity;
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this->count = 0;
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this->buffer = (T*)::operator new (this->capacity * QSE_SIZEOF(*this->buffer), &this->mp);
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for (qse_size_t i = 0; i < this->capacity; i++)
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{
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}
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}
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BinaryHeap (const SelfType& heap):
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Mmged (heap.getMmgr()),
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mp (heap.getMmgr(), heap.mp.getDatumSize(), heap.mp.getBlockSize()),
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capacity (heap.capacity), count (0)
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BinaryHeap (const SelfType& heap): ParentType (heap)
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{
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// TODO: copy data items.
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}
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~BinaryHeap ()
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{
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for (qse_size_t i = this->count; i > 0; )
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{
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--i;
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this->buffer[i].~T ();
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}
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::operator delete (this->buffer, &this->mp);
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}
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SelfType& operator= (const SelfType& heap)
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{
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this->clear ();
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// TODO: copy data items
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ParentType::operator= (heap);
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return *this;
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}
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~BinaryHeap
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Mpool& getMpool ()
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using ParentType::isEmpty;
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using ParentType::getSize;
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using ParentType::getCapacity;
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using ParentType::clear;
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using ParentType::compact;
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const T& getValueAt (qse_size_t index) const
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{
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return this->mp;
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return ParentType::getValueAt (index);
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}
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const Mpool& getMpool () const
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qse_size_t insert (const T& value)
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{
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return this->mp;
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}
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qse_size_t getCapacity () const
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{
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return this->capacity;
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}
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qse_size_t getSize () const
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{
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return this->count;
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}
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bool isEmpty () const
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{
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return this->count <= 0;
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}
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Node* insert (const T& value)
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{
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#if 0
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qse_size_t index = this->data_count;
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qse_size_t index = this->count;
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// add the item at the back of the array
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// i don't use Tree<T>::insert() for this->assign().
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//Tree<T>::insert (index, value);
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Tree<T>::setSize (index + 1);
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this->assign (this->data_buffer[index], value, index);
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ParentType::insert (index, value);
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// move the item up to the top if it's greater than the up item
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return sift_up (index);
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#endif
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return this->sift_up(index);
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}
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#if 0
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qse_size_t update (qse_size_t index, const T& value)
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{
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T old = this->data_buffer[index];
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//this->data_buffer[index] = value;
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this->assign (this->data_buffer[index], value, index);
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this->buffer[index] = value;
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return (this->greater_than (value, old))? sift_up (index): sift_down (index);
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return (this->greater_than(value, old))? this->sift_up(index): this->sift_down(index);
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}
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#endif
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void remove_node (qse_size_t index)
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void remove (qse_size_t index)
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{
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QSE_ASSERT (index < this->data_count);
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QSE_ASSERT (index < this->count);
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#if 0
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// copy the last item to the position to remove
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// note that this->assign() isn't called for temporary assignment.
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T old = this->data_buffer[index];
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T old = this->buffer[index];
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//this->data_buffer[index] = this->data_buffer[this->data_count - 1];
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this->assign (this->data_buffer[index], this->data_buffer[this->data_count - 1], index);
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this->buffer[index] = this->buffer[this->count - 1];
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// delete the last item
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Tree<T>::remove (this->data_count - 1);
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ParentType::remove (this->count - 1);
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// relocate the item
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(this->greater_than (this->data_buffer[index], old))? sift_up (index): sift_down (index);
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#endif
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}
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void remove ()
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{
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/* TODO: remove root node */
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(this->greater_than (this->buffer[index], old))? this->sift_up(index): this->sift_down(index);
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}
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void clear ()
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@ -260,60 +181,51 @@ public:
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}
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protected:
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Node* sift_up (qse_size_t index)
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qse_size_t sift_up (qse_size_t index)
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{
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#if 0
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qse_size_t up;
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up = QSE_ARRAY_HEAP_PARENT (index);
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if (index > 0 && this->greater_than (this->data_buffer[index], this->data_buffer[up]))
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up = QSE_BINARY_HEAP_UP(index);
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if (index > 0 && this->greater_than(this->buffer[index], this->buffer[up]))
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{
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// note that this->assign() isn't called for temporary assignment.
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T item = this->data_buffer[index];
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T item = this->buffer[index];
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do
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{
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//this->data_buffer[index] = this->data_buffer[up];
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this->assign (this->data_buffer[index], this->data_buffer[up], index);
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this->buffer[index] = this->buffer[up];
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index = up;
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up = QSE_ARRAY_HEAP_PARENT (up);
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up = QSE_BINARY_HEAP_UP(up);
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}
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while (index > 0 && this->greater_than (item, this->data_buffer[up]));
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while (index > 0 && this->greater_than(item, this->buffer[up]));
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//this->data_buffer[index] = item;
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this->assign (this->data_buffer[index], item, index);
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this->buffer[index] = item;
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}
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return index;
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#endif
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return QSE_NULL;
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}
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Node* sift_down (qse_size_t index)
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qse_size_t sift_down (qse_size_t index)
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{
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#if 0
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qse_size_t half_data_count = this->data_count / 2;
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qse_size_t half_data_count = this->count / 2;
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if (index < half_data_count)
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{
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// if at least 1 child is under the 'index' position
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// perform sifting
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// note that this->assign() isn't called for temporary assignment.
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T item = this->data_buffer[index];
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T item = this->data_buffer[index];
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T item = this->buffer[index];
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do
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{
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qse_size_t left, right, greater;
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left = QSE_ARRAY_HEAP_LEFT (index);
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right = QSE_ARRAY_HEAP_RIGHT (index);
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left = QSE_BINARY_HEAP_LEFT(index);
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right = QSE_BINARY_HEAP_RIGHT(index);
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// choose the larger one between 2 BinaryHeap
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if (right < this->data_count &&
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this->greater_than (this->data_buffer[right], this->data_buffer[left]))
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if (right < this->count &&
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this->greater_than(this->buffer[right], this->buffer[left]))
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{
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// if the right child exists and
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// the right item is greater than the left item
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@ -324,32 +236,21 @@ protected:
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greater = left;
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}
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if (this->greater_than (item, this->data_buffer[greater])) break;
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if (this->greater_than(item, this->buffer[greater])) break;
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//this->data_buffer[index] = this->data_buffer[greater];
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this->assign (this->data_buffer[index], this->data_buffer[greater], index);
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this->buffer[index] = this->buffer[greater];
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index = greater;
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}
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while (index < half_data_count);
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//this->data_buffer[index] = item;
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this->assign (this->data_buffer[index], item, index);
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this->buffer[index] = item;
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}
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return index;
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#endif
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return QSE_NULL;
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}
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protected:
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Mpool mp;
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COMPARATOR greater_than;
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ASSIGNER assigner;
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RESIZER resizer;
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qse_size_t capacity;
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qse_size_t count;
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T* buffer;
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};
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@ -55,7 +55,6 @@ public:
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typedef qse_mmgr_t mmgr_t;
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QSE_EXCEPTION (MemoryError);
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QSE_EXCEPTION (InvalidArgumentError);
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protected:
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bool raise_exception;
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|
@ -170,7 +170,7 @@ protected:
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{
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if (this->previous == this->current->getUpNode())
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{
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/* the previous node is the up of the current node.
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/* the previous node is the parent of the current node.
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* it indicates that we're going down to the getChild(l) */
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if ((this->current->*this->get_left)()->notNil())
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{
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@ -194,7 +194,7 @@ protected:
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{
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/* both the left child and the right child have been traversed */
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QSE_ASSERT (this->previous == (this->current->*this->get_right)());
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/* just move up to the up */
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/* just move up to the parent */
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this->previous = this->current;
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this->current = this->current->getUpNode();
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}
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@ -213,7 +213,7 @@ protected:
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}
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else
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{
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/* otherwise, move up to the up */
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/* otherwise, move up to the parent */
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this->previous = this->current;
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this->current = this->current->getUpNode();
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}
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@ -228,7 +228,7 @@ protected:
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}
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else
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{
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/* otherwise, move up to the up */
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/* otherwise, move up to the parent */
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this->previous = this->current;
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this->current = this->current->getUpNode();
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}
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@ -478,7 +478,7 @@ protected:
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* left child(x). move the pivot's right child(y) to the pivot's original
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* position. as 'c1' is between 'y' and 'pivot', move it to the right
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* of the new pivot position.
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* up up
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* parent parent
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* | | (left or right?) | |
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* pivot y
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* / \ / \
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@ -492,7 +492,7 @@ protected:
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* position. as 'c2' is between 'x' and 'pivot', move it to the left
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* of the new pivot position.
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*
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* up up
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* parent parent
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* | | (left or right?) | |
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* pivot x
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* / \ / \
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@ -502,8 +502,8 @@ protected:
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*
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*
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* the actual implementation here resolves the pivot's relationship to
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* its up by comparaing pointers as it is not known if the pivot pair
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* is the left child or the right child of its up,
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* its parent by comparaing pointers as it is not known if the pivot pair
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* is the left child or the right child of its parent,
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*/
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Node* up, * z, * c;
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|
@ -184,19 +184,24 @@ void* operator new (qse_size_t size, QSE::Mpool* mp)
|
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{
|
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if (mp->isEnabled())
|
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{
|
||||
QSE_ASSERT (size == mp->getDatumSize());
|
||||
QSE_ASSERTX (size == mp->getDatumSize(),
|
||||
"Pass the right allocation size for the given memory pool");
|
||||
// the size argument is not really used. you must make sure that
|
||||
// the given size matches the datum size of the memory pool.
|
||||
if (size != mp->getDatumSize())
|
||||
{
|
||||
//QSE::Mmgr* mmgr = mp->getMmgr();
|
||||
QSE_THROW (QSE::Mmgr::InvalidArgumentError);
|
||||
// when the assertion above is excluded during the build,
|
||||
// bypass the memory pool if a wrong size is passed in.
|
||||
// debug your application properly so that this block
|
||||
// is never reached.
|
||||
goto use_mmgr;
|
||||
}
|
||||
return mp->allocate ();
|
||||
}
|
||||
else
|
||||
{
|
||||
// but when the memory pool is not enabled, it goes through
|
||||
use_mmgr:
|
||||
// when the memory pool is not enabled, it goes through
|
||||
// the memory manager directly and it honors the size argument.
|
||||
return ::operator new(size, mp->getMmgr());
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user