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/*
* Copyright (C) 2007, 2008 Apple Inc. All rights reserved.
* Copyright (C) 2009 Google Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef WTF_Deque_h
#define WTF_Deque_h
// FIXME: Could move what Vector and Deque share into a separate file.
// Deque doesn't actually use Vector.
#include "Vector.h"
namespace WTF {
template<typename T, size_t inlineCapacity> class DequeIteratorBase;
template<typename T, size_t inlineCapacity> class DequeIterator;
template<typename T, size_t inlineCapacity> class DequeConstIterator;
template<typename T, size_t inlineCapacity> class DequeReverseIterator;
template<typename T, size_t inlineCapacity> class DequeConstReverseIterator;
template<typename T, size_t inlineCapacity = 0>
class Deque {
WTF_MAKE_FAST_ALLOCATED;
public:
typedef DequeIterator<T, inlineCapacity> iterator;
typedef DequeConstIterator<T, inlineCapacity> const_iterator;
typedef DequeReverseIterator<T, inlineCapacity> reverse_iterator;
typedef DequeConstReverseIterator<T, inlineCapacity> const_reverse_iterator;
Deque();
Deque(const Deque<T, inlineCapacity>&);
Deque& operator=(const Deque<T, inlineCapacity>&);
~Deque();
void swap(Deque<T, inlineCapacity>&);
size_t size() const { return m_start <= m_end ? m_end - m_start : m_end + m_buffer.capacity() - m_start; }
bool isEmpty() const { return m_start == m_end; }
iterator begin() { return iterator(this, m_start); }
iterator end() { return iterator(this, m_end); }
const_iterator begin() const { return const_iterator(this, m_start); }
const_iterator end() const { return const_iterator(this, m_end); }
reverse_iterator rbegin() { return reverse_iterator(this, m_end); }
reverse_iterator rend() { return reverse_iterator(this, m_start); }
const_reverse_iterator rbegin() const { return const_reverse_iterator(this, m_end); }
const_reverse_iterator rend() const { return const_reverse_iterator(this, m_start); }
T& first() { ASSERT(m_start != m_end); return m_buffer.buffer()[m_start]; }
const T& first() const { ASSERT(m_start != m_end); return m_buffer.buffer()[m_start]; }
T takeFirst();
template<typename U> void append(const U&);
template<typename U> void prepend(const U&);
void removeFirst();
void remove(iterator&);
void remove(const_iterator&);
void clear();
template<typename Predicate>
iterator findIf(Predicate&);
private:
friend class DequeIteratorBase<T, inlineCapacity>;
typedef VectorBuffer<T, inlineCapacity> Buffer;
typedef VectorTypeOperations<T> TypeOperations;
typedef DequeIteratorBase<T, inlineCapacity> IteratorBase;
void remove(size_t position);
void invalidateIterators();
void destroyAll();
void checkValidity() const;
void checkIndexValidity(size_t) const;
void expandCapacityIfNeeded();
void expandCapacity();
size_t m_start;
size_t m_end;
Buffer m_buffer;
#ifndef NDEBUG
mutable IteratorBase* m_iterators;
#endif
};
template<typename T, size_t inlineCapacity = 0>
class DequeIteratorBase {
private:
typedef DequeIteratorBase<T, inlineCapacity> Base;
protected:
DequeIteratorBase();
DequeIteratorBase(const Deque<T, inlineCapacity>*, size_t);
DequeIteratorBase(const Base&);
Base& operator=(const Base&);
~DequeIteratorBase();
void assign(const Base& other) { *this = other; }
void increment();
void decrement();
T* before() const;
T* after() const;
bool isEqual(const Base&) const;
private:
void addToIteratorsList();
void removeFromIteratorsList();
void checkValidity() const;
void checkValidity(const Base&) const;
Deque<T, inlineCapacity>* m_deque;
size_t m_index;
friend class Deque<T, inlineCapacity>;
#ifndef NDEBUG
mutable DequeIteratorBase* m_next;
mutable DequeIteratorBase* m_previous;
#endif
};
template<typename T, size_t inlineCapacity = 0>
class DequeIterator : public DequeIteratorBase<T, inlineCapacity> {
private:
typedef DequeIteratorBase<T, inlineCapacity> Base;
typedef DequeIterator<T, inlineCapacity> Iterator;
public:
DequeIterator(Deque<T, inlineCapacity>* deque, size_t index) : Base(deque, index) { }
DequeIterator(const Iterator& other) : Base(other) { }
DequeIterator& operator=(const Iterator& other) { Base::assign(other); return *this; }
T& operator*() const { return *Base::after(); }
T* operator->() const { return Base::after(); }
bool operator==(const Iterator& other) const { return Base::isEqual(other); }
bool operator!=(const Iterator& other) const { return !Base::isEqual(other); }
Iterator& operator++() { Base::increment(); return *this; }
// postfix ++ intentionally omitted
Iterator& operator--() { Base::decrement(); return *this; }
// postfix -- intentionally omitted
};
template<typename T, size_t inlineCapacity = 0>
class DequeConstIterator : public DequeIteratorBase<T, inlineCapacity> {
private:
typedef DequeIteratorBase<T, inlineCapacity> Base;
typedef DequeConstIterator<T, inlineCapacity> Iterator;
typedef DequeIterator<T, inlineCapacity> NonConstIterator;
public:
DequeConstIterator(const Deque<T, inlineCapacity>* deque, size_t index) : Base(deque, index) { }
DequeConstIterator(const Iterator& other) : Base(other) { }
DequeConstIterator(const NonConstIterator& other) : Base(other) { }
DequeConstIterator& operator=(const Iterator& other) { Base::assign(other); return *this; }
DequeConstIterator& operator=(const NonConstIterator& other) { Base::assign(other); return *this; }
const T& operator*() const { return *Base::after(); }
const T* operator->() const { return Base::after(); }
bool operator==(const Iterator& other) const { return Base::isEqual(other); }
bool operator!=(const Iterator& other) const { return !Base::isEqual(other); }
Iterator& operator++() { Base::increment(); return *this; }
// postfix ++ intentionally omitted
Iterator& operator--() { Base::decrement(); return *this; }
// postfix -- intentionally omitted
};
template<typename T, size_t inlineCapacity = 0>
class DequeReverseIterator : public DequeIteratorBase<T, inlineCapacity> {
private:
typedef DequeIteratorBase<T, inlineCapacity> Base;
typedef DequeReverseIterator<T, inlineCapacity> Iterator;
public:
DequeReverseIterator(const Deque<T, inlineCapacity>* deque, size_t index) : Base(deque, index) { }
DequeReverseIterator(const Iterator& other) : Base(other) { }
DequeReverseIterator& operator=(const Iterator& other) { Base::assign(other); return *this; }
T& operator*() const { return *Base::before(); }
T* operator->() const { return Base::before(); }
bool operator==(const Iterator& other) const { return Base::isEqual(other); }
bool operator!=(const Iterator& other) const { return !Base::isEqual(other); }
Iterator& operator++() { Base::decrement(); return *this; }
// postfix ++ intentionally omitted
Iterator& operator--() { Base::increment(); return *this; }
// postfix -- intentionally omitted
};
template<typename T, size_t inlineCapacity = 0>
class DequeConstReverseIterator : public DequeIteratorBase<T, inlineCapacity> {
private:
typedef DequeIteratorBase<T, inlineCapacity> Base;
typedef DequeConstReverseIterator<T, inlineCapacity> Iterator;
typedef DequeReverseIterator<T, inlineCapacity> NonConstIterator;
public:
DequeConstReverseIterator(const Deque<T, inlineCapacity>* deque, size_t index) : Base(deque, index) { }
DequeConstReverseIterator(const Iterator& other) : Base(other) { }
DequeConstReverseIterator(const NonConstIterator& other) : Base(other) { }
DequeConstReverseIterator& operator=(const Iterator& other) { Base::assign(other); return *this; }
DequeConstReverseIterator& operator=(const NonConstIterator& other) { Base::assign(other); return *this; }
const T& operator*() const { return *Base::before(); }
const T* operator->() const { return Base::before(); }
bool operator==(const Iterator& other) const { return Base::isEqual(other); }
bool operator!=(const Iterator& other) const { return !Base::isEqual(other); }
Iterator& operator++() { Base::decrement(); return *this; }
// postfix ++ intentionally omitted
Iterator& operator--() { Base::increment(); return *this; }
// postfix -- intentionally omitted
};
#ifdef NDEBUG
template<typename T, size_t inlineCapacity> inline void Deque<T, inlineCapacity>::checkValidity() const { }
template<typename T, size_t inlineCapacity> inline void Deque<T, inlineCapacity>::checkIndexValidity(size_t) const { }
template<typename T, size_t inlineCapacity> inline void Deque<T, inlineCapacity>::invalidateIterators() { }
#else
template<typename T, size_t inlineCapacity>
void Deque<T, inlineCapacity>::checkValidity() const
{
// In this implementation a capacity of 1 would confuse append() and
// other places that assume the index after capacity - 1 is 0.
ASSERT(m_buffer.capacity() != 1);
if (!m_buffer.capacity()) {
ASSERT(!m_start);
ASSERT(!m_end);
} else {
ASSERT(m_start < m_buffer.capacity());
ASSERT(m_end < m_buffer.capacity());
}
}
template<typename T, size_t inlineCapacity>
void Deque<T, inlineCapacity>::checkIndexValidity(size_t index) const
{
ASSERT(index <= m_buffer.capacity());
if (m_start <= m_end) {
ASSERT(index >= m_start);
ASSERT(index <= m_end);
} else {
ASSERT(index >= m_start || index <= m_end);
}
}
template<typename T, size_t inlineCapacity>
void Deque<T, inlineCapacity>::invalidateIterators()
{
IteratorBase* next;
for (IteratorBase* p = m_iterators; p; p = next) {
next = p->m_next;
p->m_deque = 0;
p->m_next = 0;
p->m_previous = 0;
}
m_iterators = 0;
}
#endif
template<typename T, size_t inlineCapacity>
inline Deque<T, inlineCapacity>::Deque()
: m_start(0)
, m_end(0)
#ifndef NDEBUG
, m_iterators(0)
#endif
{
checkValidity();
}
template<typename T, size_t inlineCapacity>
inline Deque<T, inlineCapacity>::Deque(const Deque<T, inlineCapacity>& other)
: m_start(other.m_start)
, m_end(other.m_end)
, m_buffer(other.m_buffer.capacity())
#ifndef NDEBUG
, m_iterators(0)
#endif
{
const T* otherBuffer = other.m_buffer.buffer();
if (m_start <= m_end)
TypeOperations::uninitializedCopy(otherBuffer + m_start, otherBuffer + m_end, m_buffer.buffer() + m_start);
else {
TypeOperations::uninitializedCopy(otherBuffer, otherBuffer + m_end, m_buffer.buffer());
TypeOperations::uninitializedCopy(otherBuffer + m_start, otherBuffer + m_buffer.capacity(), m_buffer.buffer() + m_start);
}
}
template<typename T, size_t inlineCapacity>
void deleteAllValues(const Deque<T, inlineCapacity>& collection)
{
typedef typename Deque<T, inlineCapacity>::const_iterator iterator;
iterator end = collection.end();
for (iterator it = collection.begin(); it != end; ++it)
delete *it;
}
template<typename T, size_t inlineCapacity>
inline Deque<T, inlineCapacity>& Deque<T, inlineCapacity>::operator=(const Deque<T, inlineCapacity>& other)
{
// FIXME: This is inefficient if we're using an inline buffer and T is
// expensive to copy since it will copy the buffer twice instead of once.
Deque<T> copy(other);
swap(copy);
return *this;
}
template<typename T, size_t inlineCapacity>
inline void Deque<T, inlineCapacity>::destroyAll()
{
if (m_start <= m_end)
TypeOperations::destruct(m_buffer.buffer() + m_start, m_buffer.buffer() + m_end);
else {
TypeOperations::destruct(m_buffer.buffer(), m_buffer.buffer() + m_end);
TypeOperations::destruct(m_buffer.buffer() + m_start, m_buffer.buffer() + m_buffer.capacity());
}
}
template<typename T, size_t inlineCapacity>
inline Deque<T, inlineCapacity>::~Deque()
{
checkValidity();
invalidateIterators();
destroyAll();
}
template<typename T, size_t inlineCapacity>
inline void Deque<T, inlineCapacity>::swap(Deque<T, inlineCapacity>& other)
{
checkValidity();
other.checkValidity();
invalidateIterators();
std::swap(m_start, other.m_start);
std::swap(m_end, other.m_end);
m_buffer.swap(other.m_buffer);
checkValidity();
other.checkValidity();
}
template<typename T, size_t inlineCapacity>
inline void Deque<T, inlineCapacity>::clear()
{
checkValidity();
invalidateIterators();
destroyAll();
m_start = 0;
m_end = 0;
checkValidity();
}
template<typename T, size_t inlineCapacity>
template<typename Predicate>
inline DequeIterator<T, inlineCapacity> Deque<T, inlineCapacity>::findIf(Predicate& predicate)
{
iterator end_iterator = end();
for (iterator it = begin(); it != end_iterator; ++it) {
if (predicate(*it))
return it;
}
return end_iterator;
}
template<typename T, size_t inlineCapacity>
inline void Deque<T, inlineCapacity>::expandCapacityIfNeeded()
{
if (m_start) {
if (m_end + 1 != m_start)
return;
} else if (m_end) {
if (m_end != m_buffer.capacity() - 1)
return;
} else if (m_buffer.capacity())
return;
expandCapacity();
}
template<typename T, size_t inlineCapacity>
void Deque<T, inlineCapacity>::expandCapacity()
{
checkValidity();
size_t oldCapacity = m_buffer.capacity();
size_t newCapacity = max(static_cast<size_t>(16), oldCapacity + oldCapacity / 4 + 1);
T* oldBuffer = m_buffer.buffer();
m_buffer.allocateBuffer(newCapacity);
if (m_start <= m_end)
TypeOperations::move(oldBuffer + m_start, oldBuffer + m_end, m_buffer.buffer() + m_start);
else {
TypeOperations::move(oldBuffer, oldBuffer + m_end, m_buffer.buffer());
size_t newStart = newCapacity - (oldCapacity - m_start);
TypeOperations::move(oldBuffer + m_start, oldBuffer + oldCapacity, m_buffer.buffer() + newStart);
m_start = newStart;
}
m_buffer.deallocateBuffer(oldBuffer);
checkValidity();
}
template<typename T, size_t inlineCapacity>
inline T Deque<T, inlineCapacity>::takeFirst()
{
T oldFirst = first();
removeFirst();
return oldFirst;
}
template<typename T, size_t inlineCapacity> template<typename U>
inline void Deque<T, inlineCapacity>::append(const U& value)
{
checkValidity();
expandCapacityIfNeeded();
new (&m_buffer.buffer()[m_end]) T(value);
if (m_end == m_buffer.capacity() - 1)
m_end = 0;
else
++m_end;
checkValidity();
}
template<typename T, size_t inlineCapacity> template<typename U>
inline void Deque<T, inlineCapacity>::prepend(const U& value)
{
checkValidity();
expandCapacityIfNeeded();
if (!m_start)
m_start = m_buffer.capacity() - 1;
else
--m_start;
new (&m_buffer.buffer()[m_start]) T(value);
checkValidity();
}
template<typename T, size_t inlineCapacity>
inline void Deque<T, inlineCapacity>::removeFirst()
{
checkValidity();
invalidateIterators();
ASSERT(!isEmpty());
TypeOperations::destruct(&m_buffer.buffer()[m_start], &m_buffer.buffer()[m_start + 1]);
if (m_start == m_buffer.capacity() - 1)
m_start = 0;
else
++m_start;
checkValidity();
}
template<typename T, size_t inlineCapacity>
inline void Deque<T, inlineCapacity>::remove(iterator& it)
{
it.checkValidity();
remove(it.m_index);
}
template<typename T, size_t inlineCapacity>
inline void Deque<T, inlineCapacity>::remove(const_iterator& it)
{
it.checkValidity();
remove(it.m_index);
}
template<typename T, size_t inlineCapacity>
inline void Deque<T, inlineCapacity>::remove(size_t position)
{
if (position == m_end)
return;
checkValidity();
invalidateIterators();
T* buffer = m_buffer.buffer();
TypeOperations::destruct(&buffer[position], &buffer[position + 1]);
// Find which segment of the circular buffer contained the remove element, and only move elements in that part.
if (position >= m_start) {
TypeOperations::moveOverlapping(buffer + m_start, buffer + position, buffer + m_start + 1);
m_start = (m_start + 1) % m_buffer.capacity();
} else {
TypeOperations::moveOverlapping(buffer + position + 1, buffer + m_end, buffer + position);
m_end = (m_end - 1 + m_buffer.capacity()) % m_buffer.capacity();
}
checkValidity();
}
#ifdef NDEBUG
template<typename T, size_t inlineCapacity> inline void DequeIteratorBase<T, inlineCapacity>::checkValidity() const { }
template<typename T, size_t inlineCapacity> inline void DequeIteratorBase<T, inlineCapacity>::checkValidity(const DequeIteratorBase<T, inlineCapacity>&) const { }
template<typename T, size_t inlineCapacity> inline void DequeIteratorBase<T, inlineCapacity>::addToIteratorsList() { }
template<typename T, size_t inlineCapacity> inline void DequeIteratorBase<T, inlineCapacity>::removeFromIteratorsList() { }
#else
template<typename T, size_t inlineCapacity>
void DequeIteratorBase<T, inlineCapacity>::checkValidity() const
{
ASSERT(m_deque);
m_deque->checkIndexValidity(m_index);
}
template<typename T, size_t inlineCapacity>
void DequeIteratorBase<T, inlineCapacity>::checkValidity(const Base& other) const
{
checkValidity();
other.checkValidity();
ASSERT(m_deque == other.m_deque);
}
template<typename T, size_t inlineCapacity>
void DequeIteratorBase<T, inlineCapacity>::addToIteratorsList()
{
if (!m_deque)
m_next = 0;
else {
m_next = m_deque->m_iterators;
m_deque->m_iterators = this;
if (m_next)
m_next->m_previous = this;
}
m_previous = 0;
}
template<typename T, size_t inlineCapacity>
void DequeIteratorBase<T, inlineCapacity>::removeFromIteratorsList()
{
if (!m_deque) {
ASSERT(!m_next);
ASSERT(!m_previous);
} else {
if (m_next) {
ASSERT(m_next->m_previous == this);
m_next->m_previous = m_previous;
}
if (m_previous) {
ASSERT(m_deque->m_iterators != this);
ASSERT(m_previous->m_next == this);
m_previous->m_next = m_next;
} else {
ASSERT(m_deque->m_iterators == this);
m_deque->m_iterators = m_next;
}
}
m_next = 0;
m_previous = 0;
}
#endif
template<typename T, size_t inlineCapacity>
inline DequeIteratorBase<T, inlineCapacity>::DequeIteratorBase()
: m_deque(0)
{
}
template<typename T, size_t inlineCapacity>
inline DequeIteratorBase<T, inlineCapacity>::DequeIteratorBase(const Deque<T, inlineCapacity>* deque, size_t index)
: m_deque(const_cast<Deque<T, inlineCapacity>*>(deque))
, m_index(index)
{
addToIteratorsList();
checkValidity();
}
template<typename T, size_t inlineCapacity>
inline DequeIteratorBase<T, inlineCapacity>::DequeIteratorBase(const Base& other)
: m_deque(other.m_deque)
, m_index(other.m_index)
{
addToIteratorsList();
checkValidity();
}
template<typename T, size_t inlineCapacity>
inline DequeIteratorBase<T, inlineCapacity>& DequeIteratorBase<T, inlineCapacity>::operator=(const Base& other)
{
checkValidity();
other.checkValidity();
removeFromIteratorsList();
m_deque = other.m_deque;
m_index = other.m_index;
addToIteratorsList();
checkValidity();
return *this;
}
template<typename T, size_t inlineCapacity>
inline DequeIteratorBase<T, inlineCapacity>::~DequeIteratorBase()
{
#ifndef NDEBUG
removeFromIteratorsList();
m_deque = 0;
#endif
}
template<typename T, size_t inlineCapacity>
inline bool DequeIteratorBase<T, inlineCapacity>::isEqual(const Base& other) const
{
checkValidity(other);
return m_index == other.m_index;
}
template<typename T, size_t inlineCapacity>
inline void DequeIteratorBase<T, inlineCapacity>::increment()
{
checkValidity();
ASSERT(m_index != m_deque->m_end);
ASSERT(m_deque->m_buffer.capacity());
if (m_index == m_deque->m_buffer.capacity() - 1)
m_index = 0;
else
++m_index;
checkValidity();
}
template<typename T, size_t inlineCapacity>
inline void DequeIteratorBase<T, inlineCapacity>::decrement()
{
checkValidity();
ASSERT(m_index != m_deque->m_start);
ASSERT(m_deque->m_buffer.capacity());
if (!m_index)
m_index = m_deque->m_buffer.capacity() - 1;
else
--m_index;
checkValidity();
}
template<typename T, size_t inlineCapacity>
inline T* DequeIteratorBase<T, inlineCapacity>::after() const
{
checkValidity();
ASSERT(m_index != m_deque->m_end);
return &m_deque->m_buffer.buffer()[m_index];
}
template<typename T, size_t inlineCapacity>
inline T* DequeIteratorBase<T, inlineCapacity>::before() const
{
checkValidity();
ASSERT(m_index != m_deque->m_start);
if (!m_index)
return &m_deque->m_buffer.buffer()[m_deque->m_buffer.capacity() - 1];
return &m_deque->m_buffer.buffer()[m_index - 1];
}
} // namespace WTF
using WTF::Deque;
#endif // WTF_Deque_h