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/****************************************************************************
**
** Copyright (C) 2020 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of the QtCore module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 3 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL3 included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 3 requirements
** will be met: https://www.gnu.org/licenses/lgpl-3.0.html.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 2.0 or (at your option) the GNU General
** Public license version 3 or any later version approved by the KDE Free
** Qt Foundation. The licenses are as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-2.0.html and
** https://www.gnu.org/licenses/gpl-3.0.html.
**
** $QT_END_LICENSE$
**
****************************************************************************/

#ifndef QARRAYDATAPOINTER_H
#define QARRAYDATAPOINTER_H

#include <QtCore/qarraydataops.h>
#include <QtCore/qcontainertools_impl.h>

QT_BEGIN_NAMESPACE

template <class T>
struct QArrayDataPointer
{
private:
    typedef QTypedArrayData<T> Data;
    typedef QArrayDataOps<T> DataOps;

public:
    enum {
        pass_parameter_by_value =
                std::is_arithmetic<T>::value || std::is_pointer<T>::value || std::is_enum<T>::value
    };

    typedef typename std::conditional<pass_parameter_by_value, T, const T &>::type parameter_type;

    constexpr QArrayDataPointer() noexcept
        : d(nullptr), ptr(nullptr), size(0)
    {
    }

    QArrayDataPointer(const QArrayDataPointer &other) noexcept
        : d(other.d), ptr(other.ptr), size(other.size)
    {
        ref();
    }

    constexpr QArrayDataPointer(Data *header, T *adata, qsizetype n = 0) noexcept
        : d(header), ptr(adata), size(n)
    {
    }

    explicit QArrayDataPointer(QPair<QTypedArrayData<T> *, T *> adata, qsizetype n = 0) noexcept
        : d(adata.first), ptr(adata.second), size(n)
    {
    }

    static QArrayDataPointer fromRawData(const T *rawData, qsizetype length) noexcept
    {
        Q_ASSERT(rawData || !length);
        return { nullptr, const_cast<T *>(rawData), length };
    }

    QArrayDataPointer &operator=(const QArrayDataPointer &other) noexcept
    {
        QArrayDataPointer tmp(other);
        this->swap(tmp);
        return *this;
    }

    QArrayDataPointer(QArrayDataPointer &&other) noexcept
        : d(other.d), ptr(other.ptr), size(other.size)
    {
        other.d = nullptr;
        other.ptr = nullptr;
        other.size = 0;
    }

    QT_MOVE_ASSIGNMENT_OPERATOR_IMPL_VIA_MOVE_AND_SWAP(QArrayDataPointer)

    DataOps &operator*() noexcept
    {
        return *static_cast<DataOps *>(this);
    }

    DataOps *operator->() noexcept
    {
        return static_cast<DataOps *>(this);
    }

    const DataOps &operator*() const noexcept
    {
        return *static_cast<const DataOps *>(this);
    }

    const DataOps *operator->() const noexcept
    {
        return static_cast<const DataOps *>(this);
    }

    ~QArrayDataPointer()
    {
        if (!deref()) {
            (*this)->destroyAll();
            Data::deallocate(d);
        }
    }

    bool isNull() const noexcept
    {
        return !ptr;
    }

    T *data() noexcept { return ptr; }
    const T *data() const noexcept { return ptr; }

    T *begin() noexcept { return data(); }
    T *end() noexcept { return data() + size; }
    const T *begin() const noexcept { return data(); }
    const T *end() const noexcept { return data() + size; }
    const T *constBegin() const noexcept { return data(); }
    const T *constEnd() const noexcept { return data() + size; }

    void swap(QArrayDataPointer &other) noexcept
    {
        qSwap(d, other.d);
        qSwap(ptr, other.ptr);
        qSwap(size, other.size);
    }

    void clear() noexcept(std::is_nothrow_destructible<T>::value)
    {
        QArrayDataPointer tmp;
        swap(tmp);
    }

    void detach(QArrayDataPointer *old = nullptr)
    {
        if (needsDetach())
            reallocateAndGrow(QArrayData::GrowsAtEnd, 0, old);
    }

    /*! \internal

        Detaches this (optionally) and grows to accommodate the free space for
        \a n elements at the required side. The side is determined from \a pos.

        \a data pointer can be provided when the caller knows that \a data
        points into range [this->begin(), this->end()). In case it is, *data
        would be updated so that it continues to point to the element it was
        pointing to before the data move. if \a data does not point into range,
        one can/should pass \c nullptr.

        Similarly to \a data, \a old, pointer to a default-constructed QADP, can
        be provided when the caller expects to e.g. copy the data from this to
        itself:
        \code
        QList<T> list(5);
        qsizetype pos = getArbitraryPos();
        list.insert(pos, list.begin(), list.end());
        \endcode

        The default rule would be: \a data and \a old must either both be valid
        pointers, or both equal to \c nullptr.
    */
    void detachAndGrow(QArrayData::GrowthPosition where, qsizetype n, const T **data,
                       QArrayDataPointer *old)
    {
        const bool detach = needsDetach();
        bool readjusted = false;
        if (!detach) {
            if (!n || (where == QArrayData::GrowsAtBeginning && freeSpaceAtBegin() >= n)
                || (where == QArrayData::GrowsAtEnd && freeSpaceAtEnd() >= n))
                return;
            readjusted = tryReadjustFreeSpace(where, n, data);
            Q_ASSERT(!readjusted
                     || (where == QArrayData::GrowsAtBeginning && freeSpaceAtBegin() >= n)
                     || (where == QArrayData::GrowsAtEnd && freeSpaceAtEnd() >= n));
        }

        if (!readjusted)
            reallocateAndGrow(where, n, old);
    }

    /*! \internal

        Reallocates to accommodate the free space for \a n elements at the
        required side. The side is determined from \a pos. Might also shrink
        when n < 0.
    */
    Q_NEVER_INLINE void reallocateAndGrow(QArrayData::GrowthPosition where, qsizetype n,
                                          QArrayDataPointer *old = nullptr)
    {
        if constexpr (QTypeInfo<T>::isRelocatable && alignof(T) <= alignof(std::max_align_t)) {
            if (where == QArrayData::GrowsAtEnd && !old && !needsDetach() && n > 0) {
                (*this)->reallocate(constAllocatedCapacity() - freeSpaceAtEnd() + n, QArrayData::Grow); // fast path
                return;
            }
        }

        QArrayDataPointer dp(allocateGrow(*this, n, where));
        if (n > 0)
            Q_CHECK_PTR(dp.data());
        if (where == QArrayData::GrowsAtBeginning) {
            Q_ASSERT(dp.freeSpaceAtBegin() >= n);
        } else {
            Q_ASSERT(dp.freeSpaceAtEnd() >= n);
        }
        if (size) {
            qsizetype toCopy = size;
            if (n < 0)
                toCopy += n;
            if (needsDetach() || old)
                dp->copyAppend(begin(), begin() + toCopy);
            else
                dp->moveAppend(begin(), begin() + toCopy);
            Q_ASSERT(dp.size == toCopy);
        }

        swap(dp);
        if (old)
            old->swap(dp);
    }

    /*! \internal

        Attempts to relocate [begin(), end()) to accommodate the free space for
        \a n elements at the required side. The side is determined from \a pos.

        Returns \c true if the internal data is moved. Returns \c false when
        there is no point in moving the data or the move is impossible. If \c
        false is returned, it is the responsibility of the caller to figure out
        how to accommodate the free space for \a n elements at \a pos.

        This function expects that certain preconditions are met, e.g. the
        detach is not needed, n > 0 and so on. This is intentional to reduce the
        number of if-statements when the caller knows that preconditions would
        be satisfied.

        \sa reallocateAndGrow
    */
    bool tryReadjustFreeSpace(QArrayData::GrowthPosition pos, qsizetype n, const T **data = nullptr)
    {
        Q_ASSERT(!this->needsDetach());
        Q_ASSERT(n > 0);
        Q_ASSERT((pos == QArrayData::GrowsAtEnd && this->freeSpaceAtEnd() < n)
                 || (pos == QArrayData::GrowsAtBeginning && this->freeSpaceAtBegin() < n));

        const qsizetype capacity = this->constAllocatedCapacity();
        const qsizetype freeAtBegin = this->freeSpaceAtBegin();
        const qsizetype freeAtEnd = this->freeSpaceAtEnd();

        qsizetype dataStartOffset = 0;
        // algorithm:
        //   a. GrowsAtEnd: relocate if space at begin AND size < (capacity * 2) / 3
        //      [all goes to free space at end]:
        //      new free space at begin = 0
        //
        //   b. GrowsAtBeginning: relocate if space at end AND size < capacity / 3
        //      [balance the free space]:
        //      new free space at begin = n + (total free space - n) / 2
        if (pos == QArrayData::GrowsAtEnd && freeAtBegin >= n
            && ((3 * this->size) < (2 * capacity))) {
            // dataStartOffset = 0; - done in declaration
        } else if (pos == QArrayData::GrowsAtBeginning && freeAtEnd >= n
                   && ((3 * this->size) < capacity)) {
            // total free space == capacity - size
            dataStartOffset = n + qMax(0, (capacity - this->size - n) / 2);
        } else {
            // nothing to do otherwise
            return false;
        }

        relocate(dataStartOffset - freeAtBegin, data);

        Q_ASSERT((pos == QArrayData::GrowsAtEnd && this->freeSpaceAtEnd() >= n)
                 || (pos == QArrayData::GrowsAtBeginning && this->freeSpaceAtBegin() >= n));
        return true;
    }

    /*! \internal

        Relocates [begin(), end()) by \a offset and updates \a data if it is not
        \c nullptr and points into [begin(), end()).
    */
    void relocate(qsizetype offset, const T **data = nullptr)
    {
        T *res = this->ptr + offset;
        QtPrivate::q_relocate_overlap_n(this->ptr, this->size, res);
        // first update data pointer, then this->ptr
        if (data && QtPrivate::q_points_into_range(*data, this->begin(), this->end()))
            *data += offset;
        this->ptr = res;
    }

    // forwards from QArrayData
    qsizetype allocatedCapacity() noexcept { return d ? d->allocatedCapacity() : 0; }
    qsizetype constAllocatedCapacity() const noexcept { return d ? d->constAllocatedCapacity() : 0; }
    void ref() noexcept { if (d) d->ref(); }
    bool deref() noexcept { return !d || d->deref(); }
    bool isMutable() const noexcept { return d; }
    bool isShared() const noexcept { return !d || d->isShared(); }
    bool isSharedWith(const QArrayDataPointer &other) const noexcept { return d && d == other.d; }
    bool needsDetach() const noexcept { return !d || d->needsDetach(); }
    qsizetype detachCapacity(qsizetype newSize) const noexcept { return d ? d->detachCapacity(newSize) : newSize; }
    const typename Data::ArrayOptions flags() const noexcept { return d ? d->flags : Data::ArrayOptionDefault; }
    void setFlag(typename Data::ArrayOptions f) noexcept { Q_ASSERT(d); d->flags |= f; }
    void clearFlag(typename Data::ArrayOptions f) noexcept { if (d) d->flags &= ~f; }

    Data *d_ptr() noexcept { return d; }
    void setBegin(T *begin) noexcept { ptr = begin; }

    qsizetype freeSpaceAtBegin() const noexcept
    {
        if (d == nullptr)
            return 0;
        return this->ptr - Data::dataStart(d, alignof(typename Data::AlignmentDummy));
    }

    qsizetype freeSpaceAtEnd() const noexcept
    {
        if (d == nullptr)
            return 0;
        return d->constAllocatedCapacity() - freeSpaceAtBegin() - this->size;
    }

    // allocate and grow. Ensure that at the minimum requiredSpace is available at the requested end
    static QArrayDataPointer allocateGrow(const QArrayDataPointer &from, qsizetype n, QArrayData::GrowthPosition position)
    {
        // calculate new capacity. We keep the free capacity at the side that does not have to grow
        // to avoid quadratic behavior with mixed append/prepend cases

        // use qMax below, because constAllocatedCapacity() can be 0 when using fromRawData()
        qsizetype minimalCapacity = qMax(from.size, from.constAllocatedCapacity()) + n;
        // subtract the free space at the side we want to allocate. This ensures that the total size requested is
        // the existing allocation at the other side + size + n.
        minimalCapacity -= (position == QArrayData::GrowsAtEnd) ? from.freeSpaceAtEnd() : from.freeSpaceAtBegin();
        qsizetype capacity = from.detachCapacity(minimalCapacity);
        const bool grows = capacity > from.constAllocatedCapacity();
        auto [header, dataPtr] = Data::allocate(capacity, grows ? QArrayData::Grow : QArrayData::KeepSize);
        const bool valid = header != nullptr && dataPtr != nullptr;
        if (!valid)
            return QArrayDataPointer(header, dataPtr);

        // Idea: * when growing backwards, adjust pointer to prepare free space at the beginning
        //       * when growing forward, adjust by the previous data pointer offset
        dataPtr += (position == QArrayData::GrowsAtBeginning)
                ? n + qMax(0, (header->alloc - from.size - n) / 2)
                : from.freeSpaceAtBegin();
        header->flags = from.flags();
        return QArrayDataPointer(header, dataPtr);
    }

    friend bool operator==(const QArrayDataPointer &lhs, const QArrayDataPointer &rhs) noexcept
    {
        return lhs.data() == rhs.data() && lhs.size == rhs.size;
    }

    friend bool operator!=(const QArrayDataPointer &lhs, const QArrayDataPointer &rhs) noexcept
    {
        return lhs.data() != rhs.data() || lhs.size != rhs.size;
    }

    Data *d;
    T *ptr;
    qsizetype size;
};

template <class T>
inline void qSwap(QArrayDataPointer<T> &p1, QArrayDataPointer<T> &p2) noexcept
{
    p1.swap(p2);
}

////////////////////////////////////////////////////////////////////////////////
//  Q_ARRAY_LITERAL

// The idea here is to place a (read-only) copy of header and array data in an
// mmappable portion of the executable (typically, .rodata section).

// Hide array inside a lambda
#define Q_ARRAY_LITERAL(Type, ...) \
    ([]() -> QArrayDataPointer<Type> { \
        static Type const data[] = { __VA_ARGS__ }; \
        return QArrayDataPointer<Type>::fromRawData(const_cast<Type *>(data), std::size(data)); \
    }())
/**/

QT_END_NAMESPACE

#endif // include guard