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#ifndef QCONTIGUOUSCACHE_H
#define QCONTIGUOUSCACHE_H
#include <QtCore/qatomic.h>
#include <limits.h>
#include <new>
QT_BEGIN_HEADER
QT_BEGIN_NAMESPACE
#undef QT_QCONTIGUOUSCACHE_DEBUG
QT_MODULE(Core)
struct Q_CORE_EXPORT QContiguousCacheData
{
QBasicAtomicInt ref;
int alloc;
int count;
int start;
int offset;
uint sharable : 1;
uint reserved : 31;
// total is 24 bytes (HP-UX aCC: 40 bytes)
// the next entry is already aligned to 8 bytes
// there will be an 8 byte gap here if T requires 16-byte alignment
// (such as long double on 64-bit platforms, __int128, __float128)
static QContiguousCacheData *allocate(int size, int alignment);
static void free(QContiguousCacheData *data);
#ifdef QT_QCONTIGUOUSCACHE_DEBUG
void dump() const;
#endif
};
template <typename T>
struct QContiguousCacheTypedData: private QContiguousCacheData
{
// private inheritance to avoid aliasing warningss
T array[1];
static inline void free(QContiguousCacheTypedData *data) { QContiguousCacheData::free(data); }
};
template<typename T>
class QContiguousCache {
typedef QContiguousCacheTypedData<T> Data;
union { QContiguousCacheData *d; QContiguousCacheTypedData<T> *p; };
public:
// STL compatibility
typedef T value_type;
typedef value_type* pointer;
typedef const value_type* const_pointer;
typedef value_type& reference;
typedef const value_type& const_reference;
typedef qptrdiff difference_type;
typedef int size_type;
explicit QContiguousCache(int capacity = 0);
QContiguousCache(const QContiguousCache<T> &v) : d(v.d) { d->ref.ref(); if (!d->sharable) detach_helper(); }
inline ~QContiguousCache() { if (!d) return; if (!d->ref.deref()) free(p); }
inline void detach() { if (d->ref != 1) detach_helper(); }
inline bool isDetached() const { return d->ref == 1; }
inline void setSharable(bool sharable) { if (!sharable) detach(); d->sharable = sharable; }
QContiguousCache<T> &operator=(const QContiguousCache<T> &other);
bool operator==(const QContiguousCache<T> &other) const;
inline bool operator!=(const QContiguousCache<T> &other) const { return !(*this == other); }
inline int capacity() const {return d->alloc; }
inline int count() const { return d->count; }
inline int size() const { return d->count; }
inline bool isEmpty() const { return d->count == 0; }
inline bool isFull() const { return d->count == d->alloc; }
inline int available() const { return d->alloc - d->count; }
void clear();
void setCapacity(int size);
const T &at(int pos) const;
T &operator[](int i);
const T &operator[](int i) const;
void append(const T &value);
void prepend(const T &value);
void insert(int pos, const T &value);
inline bool containsIndex(int pos) const { return pos >= d->offset && pos - d->offset < d->count; }
inline int firstIndex() const { return d->offset; }
inline int lastIndex() const { return d->offset + d->count - 1; }
inline const T &first() const { Q_ASSERT(!isEmpty()); return p->array[d->start]; }
inline const T &last() const { Q_ASSERT(!isEmpty()); return p->array[(d->start + d->count -1) % d->alloc]; }
inline T &first() { Q_ASSERT(!isEmpty()); detach(); return p->array[d->start]; }
inline T &last() { Q_ASSERT(!isEmpty()); detach(); return p->array[(d->start + d->count -1) % d->alloc]; }
void removeFirst();
T takeFirst();
void removeLast();
T takeLast();
inline bool areIndexesValid() const
{ return d->offset >= 0 && d->offset < INT_MAX - d->count && (d->offset % d->alloc) == d->start; }
inline void normalizeIndexes() { d->offset = d->start; }
#ifdef QT_QCONTIGUOUSCACHE_DEBUG
void dump() const { p->dump(); }
#endif
private:
void detach_helper();
QContiguousCacheData *malloc(int aalloc);
void free(Data *x);
int sizeOfTypedData() {
// this is more or less the same as sizeof(Data), except that it doesn't
// count the padding at the end
return reinterpret_cast<const char *>(&(reinterpret_cast<const Data *>(this))->array[1]) - reinterpret_cast<const char *>(this);
}
int alignOfTypedData() const
{
#ifdef Q_ALIGNOF
return qMax<int>(sizeof(void*), Q_ALIGNOF(Data));
#else
return 0;
#endif
}
};
template <typename T>
void QContiguousCache<T>::detach_helper()
{
union { QContiguousCacheData *d; QContiguousCacheTypedData<T> *p; } x;
x.d = malloc(d->alloc);
x.d->ref = 1;
x.d->count = d->count;
x.d->start = d->start;
x.d->offset = d->offset;
x.d->alloc = d->alloc;
x.d->sharable = true;
x.d->reserved = 0;
T *dest = x.p->array + x.d->start;
T *src = p->array + d->start;
int oldcount = x.d->count;
while (oldcount--) {
if (QTypeInfo<T>::isComplex) {
new (dest) T(*src);
} else {
*dest = *src;
}
dest++;
if (dest == x.p->array + x.d->alloc)
dest = x.p->array;
src++;
if (src == p->array + d->alloc)
src = p->array;
}
if (!d->ref.deref())
free(p);
d = x.d;
}
template <typename T>
void QContiguousCache<T>::setCapacity(int asize)
{
if (asize == d->alloc)
return;
detach();
union { QContiguousCacheData *d; QContiguousCacheTypedData<T> *p; } x;
x.d = malloc(asize);
x.d->alloc = asize;
x.d->count = qMin(d->count, asize);
x.d->offset = d->offset + d->count - x.d->count;
if(asize)
x.d->start = x.d->offset % x.d->alloc;
else
x.d->start = 0;
int oldcount = x.d->count;
if(oldcount)
{
T *dest = x.p->array + (x.d->start + x.d->count-1) % x.d->alloc;
T *src = p->array + (d->start + d->count-1) % d->alloc;
while (oldcount--) {
if (QTypeInfo<T>::isComplex) {
new (dest) T(*src);
} else {
*dest = *src;
}
if (dest == x.p->array)
dest = x.p->array + x.d->alloc;
dest--;
if (src == p->array)
src = p->array + d->alloc;
src--;
}
}
/* free old */
free(p);
d = x.d;
}
template <typename T>
void QContiguousCache<T>::clear()
{
if (d->ref == 1) {
if (QTypeInfo<T>::isComplex) {
int oldcount = d->count;
T * i = p->array + d->start;
T * e = p->array + d->alloc;
while (oldcount--) {
i->~T();
i++;
if (i == e)
i = p->array;
}
}
d->count = d->start = d->offset = 0;
} else {
union { QContiguousCacheData *d; QContiguousCacheTypedData<T> *p; } x;
x.d = malloc(d->alloc);
x.d->ref = 1;
x.d->alloc = d->alloc;
x.d->count = x.d->start = x.d->offset = 0;
x.d->sharable = true;
if (!d->ref.deref()) free(p);
d = x.d;
}
}
template <typename T>
inline QContiguousCacheData *QContiguousCache<T>::malloc(int aalloc)
{
return QContiguousCacheData::allocate(sizeOfTypedData() + (aalloc - 1) * sizeof(T), alignOfTypedData());
}
template <typename T>
QContiguousCache<T>::QContiguousCache(int cap)
{
d = malloc(cap);
d->ref = 1;
d->alloc = cap;
d->count = d->start = d->offset = 0;
d->sharable = true;
}
template <typename T>
QContiguousCache<T> &QContiguousCache<T>::operator=(const QContiguousCache<T> &other)
{
other.d->ref.ref();
if (!d->ref.deref())
free(d);
d = other.d;
if (!d->sharable)
detach_helper();
return *this;
}
template <typename T>
bool QContiguousCache<T>::operator==(const QContiguousCache<T> &other) const
{
if (other.d == d)
return true;
if (other.d->start != d->start
|| other.d->count != d->count
|| other.d->offset != d->offset
|| other.d->alloc != d->alloc)
return false;
for (int i = firstIndex(); i <= lastIndex(); ++i)
if (!(at(i) == other.at(i)))
return false;
return true;
}
template <typename T>
void QContiguousCache<T>::free(Data *x)
{
if (QTypeInfo<T>::isComplex) {
int oldcount = d->count;
T * i = p->array + d->start;
T * e = p->array + d->alloc;
while (oldcount--) {
i->~T();
i++;
if (i == e)
i = p->array;
}
}
x->free(x);
}
template <typename T>
void QContiguousCache<T>::append(const T &value)
{
detach();
if (QTypeInfo<T>::isComplex) {
if (d->count == d->alloc)
(p->array + (d->start+d->count) % d->alloc)->~T();
new (p->array + (d->start+d->count) % d->alloc) T(value);
} else {
p->array[(d->start+d->count) % d->alloc] = value;
}
if (d->count == d->alloc) {
d->start++;
d->start %= d->alloc;
d->offset++;
} else {
d->count++;
}
}
template<typename T>
void QContiguousCache<T>::prepend(const T &value)
{
detach();
if (d->start)
d->start--;
else
d->start = d->alloc-1;
d->offset--;
if (d->count != d->alloc)
d->count++;
else
if (d->count == d->alloc)
(p->array + d->start)->~T();
if (QTypeInfo<T>::isComplex)
new (p->array + d->start) T(value);
else
p->array[d->start] = value;
}
template<typename T>
void QContiguousCache<T>::insert(int pos, const T &value)
{
Q_ASSERT_X(pos >= 0 && pos < INT_MAX, "QContiguousCache<T>::insert", "index out of range");
detach();
if (containsIndex(pos)) {
if(QTypeInfo<T>::isComplex)
new (p->array + pos % d->alloc) T(value);
else
p->array[pos % d->alloc] = value;
} else if (pos == d->offset-1)
prepend(value);
else if (pos == d->offset+d->count)
append(value);
else {
// we don't leave gaps.
clear();
d->offset = pos;
d->start = pos % d->alloc;
d->count = 1;
if (QTypeInfo<T>::isComplex)
new (p->array + d->start) T(value);
else
p->array[d->start] = value;
}
}
template <typename T>
inline const T &QContiguousCache<T>::at(int pos) const
{ Q_ASSERT_X(pos >= d->offset && pos - d->offset < d->count, "QContiguousCache<T>::at", "index out of range"); return p->array[pos % d->alloc]; }
template <typename T>
inline const T &QContiguousCache<T>::operator[](int pos) const
{ Q_ASSERT_X(pos >= d->offset && pos - d->offset < d->count, "QContiguousCache<T>::at", "index out of range"); return p->array[pos % d->alloc]; }
template <typename T>
inline T &QContiguousCache<T>::operator[](int pos)
{
detach();
if (!containsIndex(pos))
insert(pos, T());
return p->array[pos % d->alloc];
}
template <typename T>
inline void QContiguousCache<T>::removeFirst()
{
Q_ASSERT(d->count > 0);
detach();
d->count--;
if (QTypeInfo<T>::isComplex)
(p->array + d->start)->~T();
d->start = (d->start + 1) % d->alloc;
d->offset++;
}
template <typename T>
inline void QContiguousCache<T>::removeLast()
{
Q_ASSERT(d->count > 0);
detach();
d->count--;
if (QTypeInfo<T>::isComplex)
(p->array + (d->start + d->count) % d->alloc)->~T();
}
template <typename T>
inline T QContiguousCache<T>::takeFirst()
{ T t = first(); removeFirst(); return t; }
template <typename T>
inline T QContiguousCache<T>::takeLast()
{ T t = last(); removeLast(); return t; }
QT_END_NAMESPACE
QT_END_HEADER
#endif