/****************************************************************************
** Meta object code from reading C++ file 'qcustomplot.h'
**
** Created by: The Qt Meta Object Compiler version 68 (Qt 6.5.2)
**
** WARNING! All changes made in this file will be lost!
*****************************************************************************/

#include "../qcustomplot.h"
#include <QtGui/qtextcursor.h>
#include <QtGui/qscreen.h>
#include <QtCore/qmetatype.h>
#include <QtCore/QSharedPointer>
#include <QtCore/QList>

#if __has_include(<QtCore/qtmochelpers.h>)
#include <QtCore/qtmochelpers.h>
#else
QT_BEGIN_MOC_NAMESPACE
#endif


#include <memory>

#if !defined(Q_MOC_OUTPUT_REVISION)
#error "The header file 'qcustomplot.h' doesn't include <QObject>."
#elif Q_MOC_OUTPUT_REVISION != 68
#error "This file was generated using the moc from 6.5.2. It"
#error "cannot be used with the include files from this version of Qt."
#error "(The moc has changed too much.)"
#endif

#ifndef Q_CONSTINIT
#define Q_CONSTINIT
#endif

QT_WARNING_PUSH
QT_WARNING_DISABLE_DEPRECATED
QT_WARNING_DISABLE_GCC("-Wuseless-cast")
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPPainterENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPPainterENDCLASS = QtMocHelpers::stringData(
    "QCPPainter",
    "PainterMode",
    "pmDefault",
    "pmVectorized",
    "pmNoCaching",
    "pmNonCosmetic",
    "PainterModes"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPPainterENDCLASS_t {
    uint offsetsAndSizes[14];
    char stringdata0[11];
    char stringdata1[12];
    char stringdata2[10];
    char stringdata3[13];
    char stringdata4[12];
    char stringdata5[14];
    char stringdata6[13];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPPainterENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPPainterENDCLASS_t qt_meta_stringdata_CLASSQCPPainterENDCLASS = {
    {
        QT_MOC_LITERAL(0, 10),  // "QCPPainter"
        QT_MOC_LITERAL(11, 11),  // "PainterMode"
        QT_MOC_LITERAL(23, 9),  // "pmDefault"
        QT_MOC_LITERAL(33, 12),  // "pmVectorized"
        QT_MOC_LITERAL(46, 11),  // "pmNoCaching"
        QT_MOC_LITERAL(58, 13),  // "pmNonCosmetic"
        QT_MOC_LITERAL(72, 12)   // "PainterModes"
    },
    "QCPPainter",
    "PainterMode",
    "pmDefault",
    "pmVectorized",
    "pmNoCaching",
    "pmNonCosmetic",
    "PainterModes"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPPainterENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       2,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    4,   24,
       6,    1, 0x1,    4,   32,

 // enum data: key, value
       2, uint(QCPPainter::pmDefault),
       3, uint(QCPPainter::pmVectorized),
       4, uint(QCPPainter::pmNoCaching),
       5, uint(QCPPainter::pmNonCosmetic),
       2, uint(QCPPainter::pmDefault),
       3, uint(QCPPainter::pmVectorized),
       4, uint(QCPPainter::pmNoCaching),
       5, uint(QCPPainter::pmNonCosmetic),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPPainter::staticMetaObject = { {
    QtPrivate::MetaObjectForType<QPainter>::value,
    qt_meta_stringdata_CLASSQCPPainterENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPPainterENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPPainterENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPPainter, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLayerENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLayerENDCLASS = QtMocHelpers::stringData(
    "QCPLayer",
    "parentPlot",
    "QCustomPlot*",
    "name",
    "index",
    "children",
    "QList<QCPLayerable*>",
    "visible",
    "mode",
    "LayerMode",
    "lmLogical",
    "lmBuffered"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLayerENDCLASS_t {
    uint offsetsAndSizes[24];
    char stringdata0[9];
    char stringdata1[11];
    char stringdata2[13];
    char stringdata3[5];
    char stringdata4[6];
    char stringdata5[9];
    char stringdata6[21];
    char stringdata7[8];
    char stringdata8[5];
    char stringdata9[10];
    char stringdata10[10];
    char stringdata11[11];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLayerENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLayerENDCLASS_t qt_meta_stringdata_CLASSQCPLayerENDCLASS = {
    {
        QT_MOC_LITERAL(0, 8),  // "QCPLayer"
        QT_MOC_LITERAL(9, 10),  // "parentPlot"
        QT_MOC_LITERAL(20, 12),  // "QCustomPlot*"
        QT_MOC_LITERAL(33, 4),  // "name"
        QT_MOC_LITERAL(38, 5),  // "index"
        QT_MOC_LITERAL(44, 8),  // "children"
        QT_MOC_LITERAL(53, 20),  // "QList<QCPLayerable*>"
        QT_MOC_LITERAL(74, 7),  // "visible"
        QT_MOC_LITERAL(82, 4),  // "mode"
        QT_MOC_LITERAL(87, 9),  // "LayerMode"
        QT_MOC_LITERAL(97, 9),  // "lmLogical"
        QT_MOC_LITERAL(107, 10)   // "lmBuffered"
    },
    "QCPLayer",
    "parentPlot",
    "QCustomPlot*",
    "name",
    "index",
    "children",
    "QList<QCPLayerable*>",
    "visible",
    "mode",
    "LayerMode",
    "lmLogical",
    "lmBuffered"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLayerENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       6,   14, // properties
       1,   44, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, 0x80000000 | 2, 0x00015009, uint(-1), 0,
       3, QMetaType::QString, 0x00015001, uint(-1), 0,
       4, QMetaType::Int, 0x00015001, uint(-1), 0,
       5, 0x80000000 | 6, 0x00015009, uint(-1), 0,
       7, QMetaType::Bool, 0x00015103, uint(-1), 0,
       8, 0x80000000 | 9, 0x0001510b, uint(-1), 0,

 // enums: name, alias, flags, count, data
       9,    9, 0x0,    2,   49,

 // enum data: key, value
      10, uint(QCPLayer::lmLogical),
      11, uint(QCPLayer::lmBuffered),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLayer::staticMetaObject = { {
    QMetaObject::SuperData::link<QObject::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPLayerENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLayerENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLayerENDCLASS_t,
        // property 'parentPlot'
        QtPrivate::TypeAndForceComplete<QCustomPlot*, std::true_type>,
        // property 'name'
        QtPrivate::TypeAndForceComplete<QString, std::true_type>,
        // property 'index'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'children'
        QtPrivate::TypeAndForceComplete<QList<QCPLayerable*>, std::true_type>,
        // property 'visible'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'mode'
        QtPrivate::TypeAndForceComplete<LayerMode, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLayer, std::true_type>
    >,
    nullptr
} };

void QCPLayer::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 0:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCustomPlot* >(); break;
        case 3:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QList<QCPLayerable*> >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPLayer *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QCustomPlot**>(_v) = _t->parentPlot(); break;
        case 1: *reinterpret_cast< QString*>(_v) = _t->name(); break;
        case 2: *reinterpret_cast< int*>(_v) = _t->index(); break;
        case 3: *reinterpret_cast< QList<QCPLayerable*>*>(_v) = _t->children(); break;
        case 4: *reinterpret_cast< bool*>(_v) = _t->visible(); break;
        case 5: *reinterpret_cast< LayerMode*>(_v) = _t->mode(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPLayer *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 4: _t->setVisible(*reinterpret_cast< bool*>(_v)); break;
        case 5: _t->setMode(*reinterpret_cast< LayerMode*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
}

const QMetaObject *QCPLayer::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPLayer::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPLayerENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QObject::qt_metacast(_clname);
}

int QCPLayer::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QObject::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 6;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLayerableENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLayerableENDCLASS = QtMocHelpers::stringData(
    "QCPLayerable",
    "layerChanged",
    "",
    "QCPLayer*",
    "newLayer",
    "setLayer",
    "layer",
    "visible",
    "parentPlot",
    "QCustomPlot*",
    "parentLayerable",
    "QCPLayerable*",
    "antialiased"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLayerableENDCLASS_t {
    uint offsetsAndSizes[26];
    char stringdata0[13];
    char stringdata1[13];
    char stringdata2[1];
    char stringdata3[10];
    char stringdata4[9];
    char stringdata5[9];
    char stringdata6[6];
    char stringdata7[8];
    char stringdata8[11];
    char stringdata9[13];
    char stringdata10[16];
    char stringdata11[14];
    char stringdata12[12];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLayerableENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLayerableENDCLASS_t qt_meta_stringdata_CLASSQCPLayerableENDCLASS = {
    {
        QT_MOC_LITERAL(0, 12),  // "QCPLayerable"
        QT_MOC_LITERAL(13, 12),  // "layerChanged"
        QT_MOC_LITERAL(26, 0),  // ""
        QT_MOC_LITERAL(27, 9),  // "QCPLayer*"
        QT_MOC_LITERAL(37, 8),  // "newLayer"
        QT_MOC_LITERAL(46, 8),  // "setLayer"
        QT_MOC_LITERAL(55, 5),  // "layer"
        QT_MOC_LITERAL(61, 7),  // "visible"
        QT_MOC_LITERAL(69, 10),  // "parentPlot"
        QT_MOC_LITERAL(80, 12),  // "QCustomPlot*"
        QT_MOC_LITERAL(93, 15),  // "parentLayerable"
        QT_MOC_LITERAL(109, 13),  // "QCPLayerable*"
        QT_MOC_LITERAL(123, 11)   // "antialiased"
    },
    "QCPLayerable",
    "layerChanged",
    "",
    "QCPLayer*",
    "newLayer",
    "setLayer",
    "layer",
    "visible",
    "parentPlot",
    "QCustomPlot*",
    "parentLayerable",
    "QCPLayerable*",
    "antialiased"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLayerableENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       2,   14, // methods
       5,   32, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       1,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   26,    2, 0x06,    6 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
       5,    1,   29,    2, 0x0a,    8 /* Public */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,

 // slots: parameters
    QMetaType::Bool, 0x80000000 | 3,    6,

 // properties: name, type, flags
       7, QMetaType::Bool, 0x00015103, uint(-1), 0,
       8, 0x80000000 | 9, 0x00015009, uint(-1), 0,
      10, 0x80000000 | 11, 0x00015009, uint(-1), 0,
       6, 0x80000000 | 3, 0x0001510b, uint(0), 0,
      12, QMetaType::Bool, 0x00015103, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLayerable::staticMetaObject = { {
    QMetaObject::SuperData::link<QObject::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPLayerableENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLayerableENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLayerableENDCLASS_t,
        // property 'visible'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'parentPlot'
        QtPrivate::TypeAndForceComplete<QCustomPlot*, std::true_type>,
        // property 'parentLayerable'
        QtPrivate::TypeAndForceComplete<QCPLayerable*, std::true_type>,
        // property 'layer'
        QtPrivate::TypeAndForceComplete<QCPLayer*, std::true_type>,
        // property 'antialiased'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLayerable, std::true_type>,
        // method 'layerChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPLayer *, std::false_type>,
        // method 'setLayer'
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPLayer *, std::false_type>
    >,
    nullptr
} };

void QCPLayerable::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPLayerable *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->layerChanged((*reinterpret_cast< std::add_pointer_t<QCPLayer*>>(_a[1]))); break;
        case 1: { bool _r = _t->setLayer((*reinterpret_cast< std::add_pointer_t<QCPLayer*>>(_a[1])));
            if (_a[0]) *reinterpret_cast< bool*>(_a[0]) = std::move(_r); }  break;
        default: ;
        }
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        switch (_id) {
        default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
        case 0:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPLayer* >(); break;
            }
            break;
        case 1:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPLayer* >(); break;
            }
            break;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPLayerable::*)(QCPLayer * );
            if (_t _q_method = &QCPLayerable::layerChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
    } else if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 3:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPLayer* >(); break;
        case 2:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPLayerable* >(); break;
        case 1:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCustomPlot* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPLayerable *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< bool*>(_v) = _t->visible(); break;
        case 1: *reinterpret_cast< QCustomPlot**>(_v) = _t->parentPlot(); break;
        case 2: *reinterpret_cast< QCPLayerable**>(_v) = _t->parentLayerable(); break;
        case 3: *reinterpret_cast< QCPLayer**>(_v) = _t->layer(); break;
        case 4: *reinterpret_cast< bool*>(_v) = _t->antialiased(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPLayerable *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setVisible(*reinterpret_cast< bool*>(_v)); break;
        case 3: _t->setLayer(*reinterpret_cast< QCPLayer**>(_v)); break;
        case 4: _t->setAntialiased(*reinterpret_cast< bool*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPLayerable::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPLayerable::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPLayerableENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QObject::qt_metacast(_clname);
}

int QCPLayerable::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QObject::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 2)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 2;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 2)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 2;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    }
    return _id;
}

// SIGNAL 0
void QCPLayerable::layerChanged(QCPLayer * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS = QtMocHelpers::stringData(
    "QCPSelectionRect",
    "started",
    "",
    "QMouseEvent*",
    "event",
    "changed",
    "rect",
    "canceled",
    "QInputEvent*",
    "accepted",
    "cancel"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS_t {
    uint offsetsAndSizes[22];
    char stringdata0[17];
    char stringdata1[8];
    char stringdata2[1];
    char stringdata3[13];
    char stringdata4[6];
    char stringdata5[8];
    char stringdata6[5];
    char stringdata7[9];
    char stringdata8[13];
    char stringdata9[9];
    char stringdata10[7];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS_t qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS = {
    {
        QT_MOC_LITERAL(0, 16),  // "QCPSelectionRect"
        QT_MOC_LITERAL(17, 7),  // "started"
        QT_MOC_LITERAL(25, 0),  // ""
        QT_MOC_LITERAL(26, 12),  // "QMouseEvent*"
        QT_MOC_LITERAL(39, 5),  // "event"
        QT_MOC_LITERAL(45, 7),  // "changed"
        QT_MOC_LITERAL(53, 4),  // "rect"
        QT_MOC_LITERAL(58, 8),  // "canceled"
        QT_MOC_LITERAL(67, 12),  // "QInputEvent*"
        QT_MOC_LITERAL(80, 8),  // "accepted"
        QT_MOC_LITERAL(89, 6)   // "cancel"
    },
    "QCPSelectionRect",
    "started",
    "",
    "QMouseEvent*",
    "event",
    "changed",
    "rect",
    "canceled",
    "QInputEvent*",
    "accepted",
    "cancel"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPSelectionRectENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       5,   14, // methods
       0,    0, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       4,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   44,    2, 0x06,    1 /* Public */,
       5,    2,   47,    2, 0x06,    3 /* Public */,
       7,    2,   52,    2, 0x06,    6 /* Public */,
       9,    2,   57,    2, 0x06,    9 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
      10,    0,   62,    2, 0x0a,   12 /* Public */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, QMetaType::QRect, 0x80000000 | 3,    6,    4,
    QMetaType::Void, QMetaType::QRect, 0x80000000 | 8,    6,    4,
    QMetaType::Void, QMetaType::QRect, 0x80000000 | 3,    6,    4,

 // slots: parameters
    QMetaType::Void,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPSelectionRect::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPSelectionRectENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPSelectionRect, std::true_type>,
        // method 'started'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'changed'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QRect &, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'canceled'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QRect &, std::false_type>,
        QtPrivate::TypeAndForceComplete<QInputEvent *, std::false_type>,
        // method 'accepted'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QRect &, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'cancel'
        QtPrivate::TypeAndForceComplete<void, std::false_type>
    >,
    nullptr
} };

void QCPSelectionRect::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPSelectionRect *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->started((*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[1]))); break;
        case 1: _t->changed((*reinterpret_cast< std::add_pointer_t<QRect>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[2]))); break;
        case 2: _t->canceled((*reinterpret_cast< std::add_pointer_t<QRect>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QInputEvent*>>(_a[2]))); break;
        case 3: _t->accepted((*reinterpret_cast< std::add_pointer_t<QRect>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[2]))); break;
        case 4: _t->cancel(); break;
        default: ;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPSelectionRect::*)(QMouseEvent * );
            if (_t _q_method = &QCPSelectionRect::started; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPSelectionRect::*)(const QRect & , QMouseEvent * );
            if (_t _q_method = &QCPSelectionRect::changed; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPSelectionRect::*)(const QRect & , QInputEvent * );
            if (_t _q_method = &QCPSelectionRect::canceled; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
        {
            using _t = void (QCPSelectionRect::*)(const QRect & , QMouseEvent * );
            if (_t _q_method = &QCPSelectionRect::accepted; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 3;
                return;
            }
        }
    }
}

const QMetaObject *QCPSelectionRect::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPSelectionRect::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPSelectionRectENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPSelectionRect::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 5)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 5)
            *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType();
        _id -= 5;
    }
    return _id;
}

// SIGNAL 0
void QCPSelectionRect::started(QMouseEvent * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPSelectionRect::changed(const QRect & _t1, QMouseEvent * _t2)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPSelectionRect::canceled(const QRect & _t1, QInputEvent * _t2)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}

// SIGNAL 3
void QCPSelectionRect::accepted(const QRect & _t1, QMouseEvent * _t2)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))) };
    QMetaObject::activate(this, &staticMetaObject, 3, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS = QtMocHelpers::stringData(
    "QCPMarginGroup"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS_t {
    uint offsetsAndSizes[2];
    char stringdata0[15];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS_t qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS = {
    {
        QT_MOC_LITERAL(0, 14)   // "QCPMarginGroup"
    },
    "QCPMarginGroup"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPMarginGroupENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPMarginGroup::staticMetaObject = { {
    QMetaObject::SuperData::link<QObject::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPMarginGroupENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPMarginGroup, std::true_type>
    >,
    nullptr
} };

void QCPMarginGroup::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPMarginGroup::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPMarginGroup::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPMarginGroupENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QObject::qt_metacast(_clname);
}

int QCPMarginGroup::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QObject::qt_metacall(_c, _id, _a);
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS = QtMocHelpers::stringData(
    "QCPLayoutElement",
    "layout",
    "QCPLayout*",
    "rect",
    "outerRect",
    "margins",
    "QMargins",
    "minimumMargins",
    "minimumSize",
    "maximumSize",
    "sizeConstraintRect",
    "SizeConstraintRect",
    "UpdatePhase",
    "upPreparation",
    "upMargins",
    "upLayout",
    "scrInnerRect",
    "scrOuterRect"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS_t {
    uint offsetsAndSizes[36];
    char stringdata0[17];
    char stringdata1[7];
    char stringdata2[11];
    char stringdata3[5];
    char stringdata4[10];
    char stringdata5[8];
    char stringdata6[9];
    char stringdata7[15];
    char stringdata8[12];
    char stringdata9[12];
    char stringdata10[19];
    char stringdata11[19];
    char stringdata12[12];
    char stringdata13[14];
    char stringdata14[10];
    char stringdata15[9];
    char stringdata16[13];
    char stringdata17[13];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS_t qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS = {
    {
        QT_MOC_LITERAL(0, 16),  // "QCPLayoutElement"
        QT_MOC_LITERAL(17, 6),  // "layout"
        QT_MOC_LITERAL(24, 10),  // "QCPLayout*"
        QT_MOC_LITERAL(35, 4),  // "rect"
        QT_MOC_LITERAL(40, 9),  // "outerRect"
        QT_MOC_LITERAL(50, 7),  // "margins"
        QT_MOC_LITERAL(58, 8),  // "QMargins"
        QT_MOC_LITERAL(67, 14),  // "minimumMargins"
        QT_MOC_LITERAL(82, 11),  // "minimumSize"
        QT_MOC_LITERAL(94, 11),  // "maximumSize"
        QT_MOC_LITERAL(106, 18),  // "sizeConstraintRect"
        QT_MOC_LITERAL(125, 18),  // "SizeConstraintRect"
        QT_MOC_LITERAL(144, 11),  // "UpdatePhase"
        QT_MOC_LITERAL(156, 13),  // "upPreparation"
        QT_MOC_LITERAL(170, 9),  // "upMargins"
        QT_MOC_LITERAL(180, 8),  // "upLayout"
        QT_MOC_LITERAL(189, 12),  // "scrInnerRect"
        QT_MOC_LITERAL(202, 12)   // "scrOuterRect"
    },
    "QCPLayoutElement",
    "layout",
    "QCPLayout*",
    "rect",
    "outerRect",
    "margins",
    "QMargins",
    "minimumMargins",
    "minimumSize",
    "maximumSize",
    "sizeConstraintRect",
    "SizeConstraintRect",
    "UpdatePhase",
    "upPreparation",
    "upMargins",
    "upLayout",
    "scrInnerRect",
    "scrOuterRect"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLayoutElementENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       8,   14, // properties
       2,   54, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, 0x80000000 | 2, 0x00015009, uint(-1), 0,
       3, QMetaType::QRect, 0x00015001, uint(-1), 0,
       4, QMetaType::QRect, 0x00015103, uint(-1), 0,
       5, 0x80000000 | 6, 0x0001510b, uint(-1), 0,
       7, 0x80000000 | 6, 0x0001510b, uint(-1), 0,
       8, QMetaType::QSize, 0x00015103, uint(-1), 0,
       9, QMetaType::QSize, 0x00015103, uint(-1), 0,
      10, 0x80000000 | 11, 0x0001510b, uint(-1), 0,

 // enums: name, alias, flags, count, data
      12,   12, 0x0,    3,   64,
      11,   11, 0x0,    2,   70,

 // enum data: key, value
      13, uint(QCPLayoutElement::upPreparation),
      14, uint(QCPLayoutElement::upMargins),
      15, uint(QCPLayoutElement::upLayout),
      16, uint(QCPLayoutElement::scrInnerRect),
      17, uint(QCPLayoutElement::scrOuterRect),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLayoutElement::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLayoutElementENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS_t,
        // property 'layout'
        QtPrivate::TypeAndForceComplete<QCPLayout*, std::true_type>,
        // property 'rect'
        QtPrivate::TypeAndForceComplete<QRect, std::true_type>,
        // property 'outerRect'
        QtPrivate::TypeAndForceComplete<QRect, std::true_type>,
        // property 'margins'
        QtPrivate::TypeAndForceComplete<QMargins, std::true_type>,
        // property 'minimumMargins'
        QtPrivate::TypeAndForceComplete<QMargins, std::true_type>,
        // property 'minimumSize'
        QtPrivate::TypeAndForceComplete<QSize, std::true_type>,
        // property 'maximumSize'
        QtPrivate::TypeAndForceComplete<QSize, std::true_type>,
        // property 'sizeConstraintRect'
        QtPrivate::TypeAndForceComplete<SizeConstraintRect, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLayoutElement, std::true_type>
    >,
    nullptr
} };

void QCPLayoutElement::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 0:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPLayout* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPLayoutElement *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QCPLayout**>(_v) = _t->layout(); break;
        case 1: *reinterpret_cast< QRect*>(_v) = _t->rect(); break;
        case 2: *reinterpret_cast< QRect*>(_v) = _t->outerRect(); break;
        case 3: *reinterpret_cast< QMargins*>(_v) = _t->margins(); break;
        case 4: *reinterpret_cast< QMargins*>(_v) = _t->minimumMargins(); break;
        case 5: *reinterpret_cast< QSize*>(_v) = _t->minimumSize(); break;
        case 6: *reinterpret_cast< QSize*>(_v) = _t->maximumSize(); break;
        case 7: *reinterpret_cast< SizeConstraintRect*>(_v) = _t->sizeConstraintRect(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPLayoutElement *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 2: _t->setOuterRect(*reinterpret_cast< QRect*>(_v)); break;
        case 3: _t->setMargins(*reinterpret_cast< QMargins*>(_v)); break;
        case 4: _t->setMinimumMargins(*reinterpret_cast< QMargins*>(_v)); break;
        case 5: _t->setMinimumSize(*reinterpret_cast< QSize*>(_v)); break;
        case 6: _t->setMaximumSize(*reinterpret_cast< QSize*>(_v)); break;
        case 7: _t->setSizeConstraintRect(*reinterpret_cast< SizeConstraintRect*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
}

const QMetaObject *QCPLayoutElement::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPLayoutElement::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPLayoutElementENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPLayoutElement::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 8;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLayoutENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLayoutENDCLASS = QtMocHelpers::stringData(
    "QCPLayout"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLayoutENDCLASS_t {
    uint offsetsAndSizes[2];
    char stringdata0[10];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLayoutENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLayoutENDCLASS_t qt_meta_stringdata_CLASSQCPLayoutENDCLASS = {
    {
        QT_MOC_LITERAL(0, 9)   // "QCPLayout"
    },
    "QCPLayout"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLayoutENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLayout::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayoutElement::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPLayoutENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLayoutENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLayoutENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLayout, std::true_type>
    >,
    nullptr
} };

void QCPLayout::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPLayout::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPLayout::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPLayoutENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayoutElement::qt_metacast(_clname);
}

int QCPLayout::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayoutElement::qt_metacall(_c, _id, _a);
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS = QtMocHelpers::stringData(
    "QCPLayoutGrid",
    "rowCount",
    "columnCount",
    "columnStretchFactors",
    "QList<double>",
    "rowStretchFactors",
    "columnSpacing",
    "rowSpacing",
    "fillOrder",
    "FillOrder",
    "wrap",
    "foRowsFirst",
    "foColumnsFirst"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS_t {
    uint offsetsAndSizes[26];
    char stringdata0[14];
    char stringdata1[9];
    char stringdata2[12];
    char stringdata3[21];
    char stringdata4[14];
    char stringdata5[18];
    char stringdata6[14];
    char stringdata7[11];
    char stringdata8[10];
    char stringdata9[10];
    char stringdata10[5];
    char stringdata11[12];
    char stringdata12[15];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS_t qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS = {
    {
        QT_MOC_LITERAL(0, 13),  // "QCPLayoutGrid"
        QT_MOC_LITERAL(14, 8),  // "rowCount"
        QT_MOC_LITERAL(23, 11),  // "columnCount"
        QT_MOC_LITERAL(35, 20),  // "columnStretchFactors"
        QT_MOC_LITERAL(56, 13),  // "QList<double>"
        QT_MOC_LITERAL(70, 17),  // "rowStretchFactors"
        QT_MOC_LITERAL(88, 13),  // "columnSpacing"
        QT_MOC_LITERAL(102, 10),  // "rowSpacing"
        QT_MOC_LITERAL(113, 9),  // "fillOrder"
        QT_MOC_LITERAL(123, 9),  // "FillOrder"
        QT_MOC_LITERAL(133, 4),  // "wrap"
        QT_MOC_LITERAL(138, 11),  // "foRowsFirst"
        QT_MOC_LITERAL(150, 14)   // "foColumnsFirst"
    },
    "QCPLayoutGrid",
    "rowCount",
    "columnCount",
    "columnStretchFactors",
    "QList<double>",
    "rowStretchFactors",
    "columnSpacing",
    "rowSpacing",
    "fillOrder",
    "FillOrder",
    "wrap",
    "foRowsFirst",
    "foColumnsFirst"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLayoutGridENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       8,   14, // properties
       1,   54, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::Int, 0x00015001, uint(-1), 0,
       2, QMetaType::Int, 0x00015001, uint(-1), 0,
       3, 0x80000000 | 4, 0x0001510b, uint(-1), 0,
       5, 0x80000000 | 4, 0x0001510b, uint(-1), 0,
       6, QMetaType::Int, 0x00015103, uint(-1), 0,
       7, QMetaType::Int, 0x00015103, uint(-1), 0,
       8, 0x80000000 | 9, 0x0001510b, uint(-1), 0,
      10, QMetaType::Int, 0x00015103, uint(-1), 0,

 // enums: name, alias, flags, count, data
       9,    9, 0x0,    2,   59,

 // enum data: key, value
      11, uint(QCPLayoutGrid::foRowsFirst),
      12, uint(QCPLayoutGrid::foColumnsFirst),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLayoutGrid::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayout::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLayoutGridENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS_t,
        // property 'rowCount'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'columnCount'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'columnStretchFactors'
        QtPrivate::TypeAndForceComplete<QList<double>, std::true_type>,
        // property 'rowStretchFactors'
        QtPrivate::TypeAndForceComplete<QList<double>, std::true_type>,
        // property 'columnSpacing'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'rowSpacing'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'fillOrder'
        QtPrivate::TypeAndForceComplete<FillOrder, std::true_type>,
        // property 'wrap'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLayoutGrid, std::true_type>
    >,
    nullptr
} };

void QCPLayoutGrid::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 3:
        case 2:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QList<double> >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPLayoutGrid *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< int*>(_v) = _t->rowCount(); break;
        case 1: *reinterpret_cast< int*>(_v) = _t->columnCount(); break;
        case 2: *reinterpret_cast< QList<double>*>(_v) = _t->columnStretchFactors(); break;
        case 3: *reinterpret_cast< QList<double>*>(_v) = _t->rowStretchFactors(); break;
        case 4: *reinterpret_cast< int*>(_v) = _t->columnSpacing(); break;
        case 5: *reinterpret_cast< int*>(_v) = _t->rowSpacing(); break;
        case 6: *reinterpret_cast< FillOrder*>(_v) = _t->fillOrder(); break;
        case 7: *reinterpret_cast< int*>(_v) = _t->wrap(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPLayoutGrid *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 2: _t->setColumnStretchFactors(*reinterpret_cast< QList<double>*>(_v)); break;
        case 3: _t->setRowStretchFactors(*reinterpret_cast< QList<double>*>(_v)); break;
        case 4: _t->setColumnSpacing(*reinterpret_cast< int*>(_v)); break;
        case 5: _t->setRowSpacing(*reinterpret_cast< int*>(_v)); break;
        case 6: _t->setFillOrder(*reinterpret_cast< FillOrder*>(_v)); break;
        case 7: _t->setWrap(*reinterpret_cast< int*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
}

const QMetaObject *QCPLayoutGrid::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPLayoutGrid::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPLayoutGridENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayout::qt_metacast(_clname);
}

int QCPLayoutGrid::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayout::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 8;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS = QtMocHelpers::stringData(
    "QCPLayoutInset",
    "InsetPlacement",
    "ipFree",
    "ipBorderAligned"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS_t {
    uint offsetsAndSizes[8];
    char stringdata0[15];
    char stringdata1[15];
    char stringdata2[7];
    char stringdata3[16];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS_t qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS = {
    {
        QT_MOC_LITERAL(0, 14),  // "QCPLayoutInset"
        QT_MOC_LITERAL(15, 14),  // "InsetPlacement"
        QT_MOC_LITERAL(30, 6),  // "ipFree"
        QT_MOC_LITERAL(37, 15)   // "ipBorderAligned"
    },
    "QCPLayoutInset",
    "InsetPlacement",
    "ipFree",
    "ipBorderAligned"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLayoutInsetENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       1,   14, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    2,   19,

 // enum data: key, value
       2, uint(QCPLayoutInset::ipFree),
       3, uint(QCPLayoutInset::ipBorderAligned),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLayoutInset::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayout::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLayoutInsetENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLayoutInset, std::true_type>
    >,
    nullptr
} };

void QCPLayoutInset::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPLayoutInset::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPLayoutInset::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPLayoutInsetENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayout::qt_metacast(_clname);
}

int QCPLayoutInset::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayout::qt_metacall(_c, _id, _a);
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLineEndingENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLineEndingENDCLASS = QtMocHelpers::stringData(
    "QCPLineEnding",
    "EndingStyle",
    "esNone",
    "esFlatArrow",
    "esSpikeArrow",
    "esLineArrow",
    "esDisc",
    "esSquare",
    "esDiamond",
    "esBar",
    "esHalfBar",
    "esSkewedBar"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLineEndingENDCLASS_t {
    uint offsetsAndSizes[24];
    char stringdata0[14];
    char stringdata1[12];
    char stringdata2[7];
    char stringdata3[12];
    char stringdata4[13];
    char stringdata5[12];
    char stringdata6[7];
    char stringdata7[9];
    char stringdata8[10];
    char stringdata9[6];
    char stringdata10[10];
    char stringdata11[12];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLineEndingENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLineEndingENDCLASS_t qt_meta_stringdata_CLASSQCPLineEndingENDCLASS = {
    {
        QT_MOC_LITERAL(0, 13),  // "QCPLineEnding"
        QT_MOC_LITERAL(14, 11),  // "EndingStyle"
        QT_MOC_LITERAL(26, 6),  // "esNone"
        QT_MOC_LITERAL(33, 11),  // "esFlatArrow"
        QT_MOC_LITERAL(45, 12),  // "esSpikeArrow"
        QT_MOC_LITERAL(58, 11),  // "esLineArrow"
        QT_MOC_LITERAL(70, 6),  // "esDisc"
        QT_MOC_LITERAL(77, 8),  // "esSquare"
        QT_MOC_LITERAL(86, 9),  // "esDiamond"
        QT_MOC_LITERAL(96, 5),  // "esBar"
        QT_MOC_LITERAL(102, 9),  // "esHalfBar"
        QT_MOC_LITERAL(112, 11)   // "esSkewedBar"
    },
    "QCPLineEnding",
    "EndingStyle",
    "esNone",
    "esFlatArrow",
    "esSpikeArrow",
    "esLineArrow",
    "esDisc",
    "esSquare",
    "esDiamond",
    "esBar",
    "esHalfBar",
    "esSkewedBar"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLineEndingENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       1,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,   10,   19,

 // enum data: key, value
       2, uint(QCPLineEnding::esNone),
       3, uint(QCPLineEnding::esFlatArrow),
       4, uint(QCPLineEnding::esSpikeArrow),
       5, uint(QCPLineEnding::esLineArrow),
       6, uint(QCPLineEnding::esDisc),
       7, uint(QCPLineEnding::esSquare),
       8, uint(QCPLineEnding::esDiamond),
       9, uint(QCPLineEnding::esBar),
      10, uint(QCPLineEnding::esHalfBar),
      11, uint(QCPLineEnding::esSkewedBar),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLineEnding::staticMetaObject = { {
    nullptr,
    qt_meta_stringdata_CLASSQCPLineEndingENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLineEndingENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLineEndingENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLineEnding, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLabelPainterPrivateENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLabelPainterPrivateENDCLASS = QtMocHelpers::stringData(
    "QCPLabelPainterPrivate",
    "AnchorMode",
    "amRectangular",
    "amSkewedUpright",
    "amSkewedRotated",
    "AnchorReferenceType",
    "artNormal",
    "artTangent",
    "AnchorSide",
    "asLeft",
    "asRight",
    "asTop",
    "asBottom",
    "asTopLeft",
    "asTopRight",
    "asBottomRight",
    "asBottomLeft"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLabelPainterPrivateENDCLASS_t {
    uint offsetsAndSizes[34];
    char stringdata0[23];
    char stringdata1[11];
    char stringdata2[14];
    char stringdata3[16];
    char stringdata4[16];
    char stringdata5[20];
    char stringdata6[10];
    char stringdata7[11];
    char stringdata8[11];
    char stringdata9[7];
    char stringdata10[8];
    char stringdata11[6];
    char stringdata12[9];
    char stringdata13[10];
    char stringdata14[11];
    char stringdata15[14];
    char stringdata16[13];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLabelPainterPrivateENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLabelPainterPrivateENDCLASS_t qt_meta_stringdata_CLASSQCPLabelPainterPrivateENDCLASS = {
    {
        QT_MOC_LITERAL(0, 22),  // "QCPLabelPainterPrivate"
        QT_MOC_LITERAL(23, 10),  // "AnchorMode"
        QT_MOC_LITERAL(34, 13),  // "amRectangular"
        QT_MOC_LITERAL(48, 15),  // "amSkewedUpright"
        QT_MOC_LITERAL(64, 15),  // "amSkewedRotated"
        QT_MOC_LITERAL(80, 19),  // "AnchorReferenceType"
        QT_MOC_LITERAL(100, 9),  // "artNormal"
        QT_MOC_LITERAL(110, 10),  // "artTangent"
        QT_MOC_LITERAL(121, 10),  // "AnchorSide"
        QT_MOC_LITERAL(132, 6),  // "asLeft"
        QT_MOC_LITERAL(139, 7),  // "asRight"
        QT_MOC_LITERAL(147, 5),  // "asTop"
        QT_MOC_LITERAL(153, 8),  // "asBottom"
        QT_MOC_LITERAL(162, 9),  // "asTopLeft"
        QT_MOC_LITERAL(172, 10),  // "asTopRight"
        QT_MOC_LITERAL(183, 13),  // "asBottomRight"
        QT_MOC_LITERAL(197, 12)   // "asBottomLeft"
    },
    "QCPLabelPainterPrivate",
    "AnchorMode",
    "amRectangular",
    "amSkewedUpright",
    "amSkewedRotated",
    "AnchorReferenceType",
    "artNormal",
    "artTangent",
    "AnchorSide",
    "asLeft",
    "asRight",
    "asTop",
    "asBottom",
    "asTopLeft",
    "asTopRight",
    "asBottomRight",
    "asBottomLeft"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLabelPainterPrivateENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       3,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    3,   29,
       5,    5, 0x0,    2,   35,
       8,    8, 0x0,    8,   39,

 // enum data: key, value
       2, uint(QCPLabelPainterPrivate::amRectangular),
       3, uint(QCPLabelPainterPrivate::amSkewedUpright),
       4, uint(QCPLabelPainterPrivate::amSkewedRotated),
       6, uint(QCPLabelPainterPrivate::artNormal),
       7, uint(QCPLabelPainterPrivate::artTangent),
       9, uint(QCPLabelPainterPrivate::asLeft),
      10, uint(QCPLabelPainterPrivate::asRight),
      11, uint(QCPLabelPainterPrivate::asTop),
      12, uint(QCPLabelPainterPrivate::asBottom),
      13, uint(QCPLabelPainterPrivate::asTopLeft),
      14, uint(QCPLabelPainterPrivate::asTopRight),
      15, uint(QCPLabelPainterPrivate::asBottomRight),
      16, uint(QCPLabelPainterPrivate::asBottomLeft),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLabelPainterPrivate::staticMetaObject = { {
    nullptr,
    qt_meta_stringdata_CLASSQCPLabelPainterPrivateENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLabelPainterPrivateENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLabelPainterPrivateENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLabelPainterPrivate, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAxisTickerENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAxisTickerENDCLASS = QtMocHelpers::stringData(
    "QCPAxisTicker",
    "TickStepStrategy",
    "tssReadability",
    "tssMeetTickCount"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAxisTickerENDCLASS_t {
    uint offsetsAndSizes[8];
    char stringdata0[14];
    char stringdata1[17];
    char stringdata2[15];
    char stringdata3[17];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAxisTickerENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAxisTickerENDCLASS_t qt_meta_stringdata_CLASSQCPAxisTickerENDCLASS = {
    {
        QT_MOC_LITERAL(0, 13),  // "QCPAxisTicker"
        QT_MOC_LITERAL(14, 16),  // "TickStepStrategy"
        QT_MOC_LITERAL(31, 14),  // "tssReadability"
        QT_MOC_LITERAL(46, 16)   // "tssMeetTickCount"
    },
    "QCPAxisTicker",
    "TickStepStrategy",
    "tssReadability",
    "tssMeetTickCount"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAxisTickerENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       1,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    2,   19,

 // enum data: key, value
       2, uint(QCPAxisTicker::tssReadability),
       3, uint(QCPAxisTicker::tssMeetTickCount),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPAxisTicker::staticMetaObject = { {
    nullptr,
    qt_meta_stringdata_CLASSQCPAxisTickerENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAxisTickerENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAxisTickerENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAxisTicker, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAxisTickerTimeENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAxisTickerTimeENDCLASS = QtMocHelpers::stringData(
    "QCPAxisTickerTime",
    "TimeUnit",
    "tuMilliseconds",
    "tuSeconds",
    "tuMinutes",
    "tuHours",
    "tuDays"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAxisTickerTimeENDCLASS_t {
    uint offsetsAndSizes[14];
    char stringdata0[18];
    char stringdata1[9];
    char stringdata2[15];
    char stringdata3[10];
    char stringdata4[10];
    char stringdata5[8];
    char stringdata6[7];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAxisTickerTimeENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAxisTickerTimeENDCLASS_t qt_meta_stringdata_CLASSQCPAxisTickerTimeENDCLASS = {
    {
        QT_MOC_LITERAL(0, 17),  // "QCPAxisTickerTime"
        QT_MOC_LITERAL(18, 8),  // "TimeUnit"
        QT_MOC_LITERAL(27, 14),  // "tuMilliseconds"
        QT_MOC_LITERAL(42, 9),  // "tuSeconds"
        QT_MOC_LITERAL(52, 9),  // "tuMinutes"
        QT_MOC_LITERAL(62, 7),  // "tuHours"
        QT_MOC_LITERAL(70, 6)   // "tuDays"
    },
    "QCPAxisTickerTime",
    "TimeUnit",
    "tuMilliseconds",
    "tuSeconds",
    "tuMinutes",
    "tuHours",
    "tuDays"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAxisTickerTimeENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       1,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    5,   19,

 // enum data: key, value
       2, uint(QCPAxisTickerTime::tuMilliseconds),
       3, uint(QCPAxisTickerTime::tuSeconds),
       4, uint(QCPAxisTickerTime::tuMinutes),
       5, uint(QCPAxisTickerTime::tuHours),
       6, uint(QCPAxisTickerTime::tuDays),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPAxisTickerTime::staticMetaObject = { {
    QtPrivate::MetaObjectForType<QCPAxisTicker>::value,
    qt_meta_stringdata_CLASSQCPAxisTickerTimeENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAxisTickerTimeENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAxisTickerTimeENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAxisTickerTime, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAxisTickerFixedENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAxisTickerFixedENDCLASS = QtMocHelpers::stringData(
    "QCPAxisTickerFixed",
    "ScaleStrategy",
    "ssNone",
    "ssMultiples",
    "ssPowers"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAxisTickerFixedENDCLASS_t {
    uint offsetsAndSizes[10];
    char stringdata0[19];
    char stringdata1[14];
    char stringdata2[7];
    char stringdata3[12];
    char stringdata4[9];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAxisTickerFixedENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAxisTickerFixedENDCLASS_t qt_meta_stringdata_CLASSQCPAxisTickerFixedENDCLASS = {
    {
        QT_MOC_LITERAL(0, 18),  // "QCPAxisTickerFixed"
        QT_MOC_LITERAL(19, 13),  // "ScaleStrategy"
        QT_MOC_LITERAL(33, 6),  // "ssNone"
        QT_MOC_LITERAL(40, 11),  // "ssMultiples"
        QT_MOC_LITERAL(52, 8)   // "ssPowers"
    },
    "QCPAxisTickerFixed",
    "ScaleStrategy",
    "ssNone",
    "ssMultiples",
    "ssPowers"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAxisTickerFixedENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       1,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    3,   19,

 // enum data: key, value
       2, uint(QCPAxisTickerFixed::ssNone),
       3, uint(QCPAxisTickerFixed::ssMultiples),
       4, uint(QCPAxisTickerFixed::ssPowers),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPAxisTickerFixed::staticMetaObject = { {
    QtPrivate::MetaObjectForType<QCPAxisTicker>::value,
    qt_meta_stringdata_CLASSQCPAxisTickerFixedENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAxisTickerFixedENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAxisTickerFixedENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAxisTickerFixed, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAxisTickerPiENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAxisTickerPiENDCLASS = QtMocHelpers::stringData(
    "QCPAxisTickerPi",
    "FractionStyle",
    "fsFloatingPoint",
    "fsAsciiFractions",
    "fsUnicodeFractions"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAxisTickerPiENDCLASS_t {
    uint offsetsAndSizes[10];
    char stringdata0[16];
    char stringdata1[14];
    char stringdata2[16];
    char stringdata3[17];
    char stringdata4[19];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAxisTickerPiENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAxisTickerPiENDCLASS_t qt_meta_stringdata_CLASSQCPAxisTickerPiENDCLASS = {
    {
        QT_MOC_LITERAL(0, 15),  // "QCPAxisTickerPi"
        QT_MOC_LITERAL(16, 13),  // "FractionStyle"
        QT_MOC_LITERAL(30, 15),  // "fsFloatingPoint"
        QT_MOC_LITERAL(46, 16),  // "fsAsciiFractions"
        QT_MOC_LITERAL(63, 18)   // "fsUnicodeFractions"
    },
    "QCPAxisTickerPi",
    "FractionStyle",
    "fsFloatingPoint",
    "fsAsciiFractions",
    "fsUnicodeFractions"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAxisTickerPiENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       1,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    3,   19,

 // enum data: key, value
       2, uint(QCPAxisTickerPi::fsFloatingPoint),
       3, uint(QCPAxisTickerPi::fsAsciiFractions),
       4, uint(QCPAxisTickerPi::fsUnicodeFractions),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPAxisTickerPi::staticMetaObject = { {
    QtPrivate::MetaObjectForType<QCPAxisTicker>::value,
    qt_meta_stringdata_CLASSQCPAxisTickerPiENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAxisTickerPiENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAxisTickerPiENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAxisTickerPi, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPGridENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPGridENDCLASS = QtMocHelpers::stringData(
    "QCPGrid",
    "subGridVisible",
    "antialiasedSubGrid",
    "antialiasedZeroLine",
    "pen",
    "subGridPen",
    "zeroLinePen"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPGridENDCLASS_t {
    uint offsetsAndSizes[14];
    char stringdata0[8];
    char stringdata1[15];
    char stringdata2[19];
    char stringdata3[20];
    char stringdata4[4];
    char stringdata5[11];
    char stringdata6[12];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPGridENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPGridENDCLASS_t qt_meta_stringdata_CLASSQCPGridENDCLASS = {
    {
        QT_MOC_LITERAL(0, 7),  // "QCPGrid"
        QT_MOC_LITERAL(8, 14),  // "subGridVisible"
        QT_MOC_LITERAL(23, 18),  // "antialiasedSubGrid"
        QT_MOC_LITERAL(42, 19),  // "antialiasedZeroLine"
        QT_MOC_LITERAL(62, 3),  // "pen"
        QT_MOC_LITERAL(66, 10),  // "subGridPen"
        QT_MOC_LITERAL(77, 11)   // "zeroLinePen"
    },
    "QCPGrid",
    "subGridVisible",
    "antialiasedSubGrid",
    "antialiasedZeroLine",
    "pen",
    "subGridPen",
    "zeroLinePen"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPGridENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       6,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::Bool, 0x00015103, uint(-1), 0,
       2, QMetaType::Bool, 0x00015103, uint(-1), 0,
       3, QMetaType::Bool, 0x00015103, uint(-1), 0,
       4, QMetaType::QPen, 0x00015103, uint(-1), 0,
       5, QMetaType::QPen, 0x00015103, uint(-1), 0,
       6, QMetaType::QPen, 0x00015103, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPGrid::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPGridENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPGridENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPGridENDCLASS_t,
        // property 'subGridVisible'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'antialiasedSubGrid'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'antialiasedZeroLine'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'subGridPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'zeroLinePen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPGrid, std::true_type>
    >,
    nullptr
} };

void QCPGrid::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPGrid *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< bool*>(_v) = _t->subGridVisible(); break;
        case 1: *reinterpret_cast< bool*>(_v) = _t->antialiasedSubGrid(); break;
        case 2: *reinterpret_cast< bool*>(_v) = _t->antialiasedZeroLine(); break;
        case 3: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 4: *reinterpret_cast< QPen*>(_v) = _t->subGridPen(); break;
        case 5: *reinterpret_cast< QPen*>(_v) = _t->zeroLinePen(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPGrid *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setSubGridVisible(*reinterpret_cast< bool*>(_v)); break;
        case 1: _t->setAntialiasedSubGrid(*reinterpret_cast< bool*>(_v)); break;
        case 2: _t->setAntialiasedZeroLine(*reinterpret_cast< bool*>(_v)); break;
        case 3: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 4: _t->setSubGridPen(*reinterpret_cast< QPen*>(_v)); break;
        case 5: _t->setZeroLinePen(*reinterpret_cast< QPen*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPGrid::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPGrid::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPGridENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPGrid::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 6;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAxisENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAxisENDCLASS = QtMocHelpers::stringData(
    "QCPAxis",
    "rangeChanged",
    "",
    "QCPRange",
    "newRange",
    "oldRange",
    "scaleTypeChanged",
    "QCPAxis::ScaleType",
    "scaleType",
    "selectionChanged",
    "QCPAxis::SelectableParts",
    "parts",
    "selectableChanged",
    "setScaleType",
    "type",
    "setRange",
    "range",
    "setSelectableParts",
    "selectableParts",
    "setSelectedParts",
    "selectedParts",
    "axisType",
    "AxisType",
    "axisRect",
    "QCPAxisRect*",
    "ScaleType",
    "rangeReversed",
    "ticker",
    "QSharedPointer<QCPAxisTicker>",
    "ticks",
    "tickLabels",
    "tickLabelPadding",
    "tickLabelFont",
    "tickLabelColor",
    "tickLabelRotation",
    "tickLabelSide",
    "LabelSide",
    "numberFormat",
    "numberPrecision",
    "tickVector",
    "QList<double>",
    "tickVectorLabels",
    "tickLengthIn",
    "tickLengthOut",
    "subTicks",
    "subTickLengthIn",
    "subTickLengthOut",
    "basePen",
    "tickPen",
    "subTickPen",
    "labelFont",
    "labelColor",
    "label",
    "labelPadding",
    "padding",
    "offset",
    "SelectableParts",
    "selectedTickLabelFont",
    "selectedLabelFont",
    "selectedTickLabelColor",
    "selectedLabelColor",
    "selectedBasePen",
    "selectedTickPen",
    "selectedSubTickPen",
    "lowerEnding",
    "QCPLineEnding",
    "upperEnding",
    "grid",
    "QCPGrid*",
    "atLeft",
    "atRight",
    "atTop",
    "atBottom",
    "AxisTypes",
    "lsInside",
    "lsOutside",
    "stLinear",
    "stLogarithmic",
    "SelectablePart",
    "spNone",
    "spAxis",
    "spTickLabels",
    "spAxisLabel"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAxisENDCLASS_t {
    uint offsetsAndSizes[166];
    char stringdata0[8];
    char stringdata1[13];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[9];
    char stringdata5[9];
    char stringdata6[17];
    char stringdata7[19];
    char stringdata8[10];
    char stringdata9[17];
    char stringdata10[25];
    char stringdata11[6];
    char stringdata12[18];
    char stringdata13[13];
    char stringdata14[5];
    char stringdata15[9];
    char stringdata16[6];
    char stringdata17[19];
    char stringdata18[16];
    char stringdata19[17];
    char stringdata20[14];
    char stringdata21[9];
    char stringdata22[9];
    char stringdata23[9];
    char stringdata24[13];
    char stringdata25[10];
    char stringdata26[14];
    char stringdata27[7];
    char stringdata28[30];
    char stringdata29[6];
    char stringdata30[11];
    char stringdata31[17];
    char stringdata32[14];
    char stringdata33[15];
    char stringdata34[18];
    char stringdata35[14];
    char stringdata36[10];
    char stringdata37[13];
    char stringdata38[16];
    char stringdata39[11];
    char stringdata40[14];
    char stringdata41[17];
    char stringdata42[13];
    char stringdata43[14];
    char stringdata44[9];
    char stringdata45[16];
    char stringdata46[17];
    char stringdata47[8];
    char stringdata48[8];
    char stringdata49[11];
    char stringdata50[10];
    char stringdata51[11];
    char stringdata52[6];
    char stringdata53[13];
    char stringdata54[8];
    char stringdata55[7];
    char stringdata56[16];
    char stringdata57[22];
    char stringdata58[18];
    char stringdata59[23];
    char stringdata60[19];
    char stringdata61[16];
    char stringdata62[16];
    char stringdata63[19];
    char stringdata64[12];
    char stringdata65[14];
    char stringdata66[12];
    char stringdata67[5];
    char stringdata68[9];
    char stringdata69[7];
    char stringdata70[8];
    char stringdata71[6];
    char stringdata72[9];
    char stringdata73[10];
    char stringdata74[9];
    char stringdata75[10];
    char stringdata76[9];
    char stringdata77[14];
    char stringdata78[15];
    char stringdata79[7];
    char stringdata80[7];
    char stringdata81[13];
    char stringdata82[12];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAxisENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAxisENDCLASS_t qt_meta_stringdata_CLASSQCPAxisENDCLASS = {
    {
        QT_MOC_LITERAL(0, 7),  // "QCPAxis"
        QT_MOC_LITERAL(8, 12),  // "rangeChanged"
        QT_MOC_LITERAL(21, 0),  // ""
        QT_MOC_LITERAL(22, 8),  // "QCPRange"
        QT_MOC_LITERAL(31, 8),  // "newRange"
        QT_MOC_LITERAL(40, 8),  // "oldRange"
        QT_MOC_LITERAL(49, 16),  // "scaleTypeChanged"
        QT_MOC_LITERAL(66, 18),  // "QCPAxis::ScaleType"
        QT_MOC_LITERAL(85, 9),  // "scaleType"
        QT_MOC_LITERAL(95, 16),  // "selectionChanged"
        QT_MOC_LITERAL(112, 24),  // "QCPAxis::SelectableParts"
        QT_MOC_LITERAL(137, 5),  // "parts"
        QT_MOC_LITERAL(143, 17),  // "selectableChanged"
        QT_MOC_LITERAL(161, 12),  // "setScaleType"
        QT_MOC_LITERAL(174, 4),  // "type"
        QT_MOC_LITERAL(179, 8),  // "setRange"
        QT_MOC_LITERAL(188, 5),  // "range"
        QT_MOC_LITERAL(194, 18),  // "setSelectableParts"
        QT_MOC_LITERAL(213, 15),  // "selectableParts"
        QT_MOC_LITERAL(229, 16),  // "setSelectedParts"
        QT_MOC_LITERAL(246, 13),  // "selectedParts"
        QT_MOC_LITERAL(260, 8),  // "axisType"
        QT_MOC_LITERAL(269, 8),  // "AxisType"
        QT_MOC_LITERAL(278, 8),  // "axisRect"
        QT_MOC_LITERAL(287, 12),  // "QCPAxisRect*"
        QT_MOC_LITERAL(300, 9),  // "ScaleType"
        QT_MOC_LITERAL(310, 13),  // "rangeReversed"
        QT_MOC_LITERAL(324, 6),  // "ticker"
        QT_MOC_LITERAL(331, 29),  // "QSharedPointer<QCPAxisTicker>"
        QT_MOC_LITERAL(361, 5),  // "ticks"
        QT_MOC_LITERAL(367, 10),  // "tickLabels"
        QT_MOC_LITERAL(378, 16),  // "tickLabelPadding"
        QT_MOC_LITERAL(395, 13),  // "tickLabelFont"
        QT_MOC_LITERAL(409, 14),  // "tickLabelColor"
        QT_MOC_LITERAL(424, 17),  // "tickLabelRotation"
        QT_MOC_LITERAL(442, 13),  // "tickLabelSide"
        QT_MOC_LITERAL(456, 9),  // "LabelSide"
        QT_MOC_LITERAL(466, 12),  // "numberFormat"
        QT_MOC_LITERAL(479, 15),  // "numberPrecision"
        QT_MOC_LITERAL(495, 10),  // "tickVector"
        QT_MOC_LITERAL(506, 13),  // "QList<double>"
        QT_MOC_LITERAL(520, 16),  // "tickVectorLabels"
        QT_MOC_LITERAL(537, 12),  // "tickLengthIn"
        QT_MOC_LITERAL(550, 13),  // "tickLengthOut"
        QT_MOC_LITERAL(564, 8),  // "subTicks"
        QT_MOC_LITERAL(573, 15),  // "subTickLengthIn"
        QT_MOC_LITERAL(589, 16),  // "subTickLengthOut"
        QT_MOC_LITERAL(606, 7),  // "basePen"
        QT_MOC_LITERAL(614, 7),  // "tickPen"
        QT_MOC_LITERAL(622, 10),  // "subTickPen"
        QT_MOC_LITERAL(633, 9),  // "labelFont"
        QT_MOC_LITERAL(643, 10),  // "labelColor"
        QT_MOC_LITERAL(654, 5),  // "label"
        QT_MOC_LITERAL(660, 12),  // "labelPadding"
        QT_MOC_LITERAL(673, 7),  // "padding"
        QT_MOC_LITERAL(681, 6),  // "offset"
        QT_MOC_LITERAL(688, 15),  // "SelectableParts"
        QT_MOC_LITERAL(704, 21),  // "selectedTickLabelFont"
        QT_MOC_LITERAL(726, 17),  // "selectedLabelFont"
        QT_MOC_LITERAL(744, 22),  // "selectedTickLabelColor"
        QT_MOC_LITERAL(767, 18),  // "selectedLabelColor"
        QT_MOC_LITERAL(786, 15),  // "selectedBasePen"
        QT_MOC_LITERAL(802, 15),  // "selectedTickPen"
        QT_MOC_LITERAL(818, 18),  // "selectedSubTickPen"
        QT_MOC_LITERAL(837, 11),  // "lowerEnding"
        QT_MOC_LITERAL(849, 13),  // "QCPLineEnding"
        QT_MOC_LITERAL(863, 11),  // "upperEnding"
        QT_MOC_LITERAL(875, 4),  // "grid"
        QT_MOC_LITERAL(880, 8),  // "QCPGrid*"
        QT_MOC_LITERAL(889, 6),  // "atLeft"
        QT_MOC_LITERAL(896, 7),  // "atRight"
        QT_MOC_LITERAL(904, 5),  // "atTop"
        QT_MOC_LITERAL(910, 8),  // "atBottom"
        QT_MOC_LITERAL(919, 9),  // "AxisTypes"
        QT_MOC_LITERAL(929, 8),  // "lsInside"
        QT_MOC_LITERAL(938, 9),  // "lsOutside"
        QT_MOC_LITERAL(948, 8),  // "stLinear"
        QT_MOC_LITERAL(957, 13),  // "stLogarithmic"
        QT_MOC_LITERAL(971, 14),  // "SelectablePart"
        QT_MOC_LITERAL(986, 6),  // "spNone"
        QT_MOC_LITERAL(993, 6),  // "spAxis"
        QT_MOC_LITERAL(1000, 12),  // "spTickLabels"
        QT_MOC_LITERAL(1013, 11)   // "spAxisLabel"
    },
    "QCPAxis",
    "rangeChanged",
    "",
    "QCPRange",
    "newRange",
    "oldRange",
    "scaleTypeChanged",
    "QCPAxis::ScaleType",
    "scaleType",
    "selectionChanged",
    "QCPAxis::SelectableParts",
    "parts",
    "selectableChanged",
    "setScaleType",
    "type",
    "setRange",
    "range",
    "setSelectableParts",
    "selectableParts",
    "setSelectedParts",
    "selectedParts",
    "axisType",
    "AxisType",
    "axisRect",
    "QCPAxisRect*",
    "ScaleType",
    "rangeReversed",
    "ticker",
    "QSharedPointer<QCPAxisTicker>",
    "ticks",
    "tickLabels",
    "tickLabelPadding",
    "tickLabelFont",
    "tickLabelColor",
    "tickLabelRotation",
    "tickLabelSide",
    "LabelSide",
    "numberFormat",
    "numberPrecision",
    "tickVector",
    "QList<double>",
    "tickVectorLabels",
    "tickLengthIn",
    "tickLengthOut",
    "subTicks",
    "subTickLengthIn",
    "subTickLengthOut",
    "basePen",
    "tickPen",
    "subTickPen",
    "labelFont",
    "labelColor",
    "label",
    "labelPadding",
    "padding",
    "offset",
    "SelectableParts",
    "selectedTickLabelFont",
    "selectedLabelFont",
    "selectedTickLabelColor",
    "selectedLabelColor",
    "selectedBasePen",
    "selectedTickPen",
    "selectedSubTickPen",
    "lowerEnding",
    "QCPLineEnding",
    "upperEnding",
    "grid",
    "QCPGrid*",
    "atLeft",
    "atRight",
    "atTop",
    "atBottom",
    "AxisTypes",
    "lsInside",
    "lsOutside",
    "stLinear",
    "stLogarithmic",
    "SelectablePart",
    "spNone",
    "spAxis",
    "spTickLabels",
    "spAxisLabel"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAxisENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       9,   14, // methods
      43,   97, // properties
       6,  312, // enums/sets
       0,    0, // constructors
       0,       // flags
       5,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   68,    2, 0x06,   44 /* Public */,
       1,    2,   71,    2, 0x06,   46 /* Public */,
       6,    1,   76,    2, 0x06,   49 /* Public */,
       9,    1,   79,    2, 0x06,   51 /* Public */,
      12,    1,   82,    2, 0x06,   53 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
      13,    1,   85,    2, 0x0a,   55 /* Public */,
      15,    1,   88,    2, 0x0a,   57 /* Public */,
      17,    1,   91,    2, 0x0a,   59 /* Public */,
      19,    1,   94,    2, 0x0a,   61 /* Public */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 3, 0x80000000 | 3,    4,    5,
    QMetaType::Void, 0x80000000 | 7,    8,
    QMetaType::Void, 0x80000000 | 10,   11,
    QMetaType::Void, 0x80000000 | 10,   11,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 7,   14,
    QMetaType::Void, 0x80000000 | 3,   16,
    QMetaType::Void, 0x80000000 | 10,   18,
    QMetaType::Void, 0x80000000 | 10,   20,

 // properties: name, type, flags
      21, 0x80000000 | 22, 0x00015009, uint(-1), 0,
      23, 0x80000000 | 24, 0x00015009, uint(-1), 0,
       8, 0x80000000 | 25, 0x0001510b, uint(2), 0,
      16, 0x80000000 | 3, 0x0001510b, uint(0), 0,
      26, QMetaType::Bool, 0x00015103, uint(-1), 0,
      27, 0x80000000 | 28, 0x0001510b, uint(-1), 0,
      29, QMetaType::Bool, 0x00015103, uint(-1), 0,
      30, QMetaType::Bool, 0x00015103, uint(-1), 0,
      31, QMetaType::Int, 0x00015103, uint(-1), 0,
      32, QMetaType::QFont, 0x00015103, uint(-1), 0,
      33, QMetaType::QColor, 0x00015103, uint(-1), 0,
      34, QMetaType::Double, 0x00015103, uint(-1), 0,
      35, 0x80000000 | 36, 0x0001510b, uint(-1), 0,
      37, QMetaType::QString, 0x00015103, uint(-1), 0,
      38, QMetaType::Int, 0x00015103, uint(-1), 0,
      39, 0x80000000 | 40, 0x00015009, uint(-1), 0,
      41, QMetaType::QStringList, 0x00015001, uint(-1), 0,
      42, QMetaType::Int, 0x00015103, uint(-1), 0,
      43, QMetaType::Int, 0x00015103, uint(-1), 0,
      44, QMetaType::Bool, 0x00015103, uint(-1), 0,
      45, QMetaType::Int, 0x00015103, uint(-1), 0,
      46, QMetaType::Int, 0x00015103, uint(-1), 0,
      47, QMetaType::QPen, 0x00015103, uint(-1), 0,
      48, QMetaType::QPen, 0x00015103, uint(-1), 0,
      49, QMetaType::QPen, 0x00015103, uint(-1), 0,
      50, QMetaType::QFont, 0x00015103, uint(-1), 0,
      51, QMetaType::QColor, 0x00015103, uint(-1), 0,
      52, QMetaType::QString, 0x00015103, uint(-1), 0,
      53, QMetaType::Int, 0x00015103, uint(-1), 0,
      54, QMetaType::Int, 0x00015103, uint(-1), 0,
      55, QMetaType::Int, 0x00015103, uint(-1), 0,
      20, 0x80000000 | 56, 0x0001510b, uint(3), 0,
      18, 0x80000000 | 56, 0x0001510b, uint(4), 0,
      57, QMetaType::QFont, 0x00015103, uint(-1), 0,
      58, QMetaType::QFont, 0x00015103, uint(-1), 0,
      59, QMetaType::QColor, 0x00015103, uint(-1), 0,
      60, QMetaType::QColor, 0x00015103, uint(-1), 0,
      61, QMetaType::QPen, 0x00015103, uint(-1), 0,
      62, QMetaType::QPen, 0x00015103, uint(-1), 0,
      63, QMetaType::QPen, 0x00015103, uint(-1), 0,
      64, 0x80000000 | 65, 0x0001510b, uint(-1), 0,
      66, 0x80000000 | 65, 0x0001510b, uint(-1), 0,
      67, 0x80000000 | 68, 0x00015009, uint(-1), 0,

 // enums: name, alias, flags, count, data
      22,   22, 0x0,    4,  342,
      73,   22, 0x1,    4,  350,
      36,   36, 0x0,    2,  358,
      25,   25, 0x0,    2,  362,
      78,   78, 0x0,    4,  366,
      56,   78, 0x1,    4,  374,

 // enum data: key, value
      69, uint(QCPAxis::atLeft),
      70, uint(QCPAxis::atRight),
      71, uint(QCPAxis::atTop),
      72, uint(QCPAxis::atBottom),
      69, uint(QCPAxis::atLeft),
      70, uint(QCPAxis::atRight),
      71, uint(QCPAxis::atTop),
      72, uint(QCPAxis::atBottom),
      74, uint(QCPAxis::lsInside),
      75, uint(QCPAxis::lsOutside),
      76, uint(QCPAxis::stLinear),
      77, uint(QCPAxis::stLogarithmic),
      79, uint(QCPAxis::spNone),
      80, uint(QCPAxis::spAxis),
      81, uint(QCPAxis::spTickLabels),
      82, uint(QCPAxis::spAxisLabel),
      79, uint(QCPAxis::spNone),
      80, uint(QCPAxis::spAxis),
      81, uint(QCPAxis::spTickLabels),
      82, uint(QCPAxis::spAxisLabel),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPAxis::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPAxisENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAxisENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAxisENDCLASS_t,
        // property 'axisType'
        QtPrivate::TypeAndForceComplete<AxisType, std::true_type>,
        // property 'axisRect'
        QtPrivate::TypeAndForceComplete<QCPAxisRect*, std::true_type>,
        // property 'scaleType'
        QtPrivate::TypeAndForceComplete<ScaleType, std::true_type>,
        // property 'range'
        QtPrivate::TypeAndForceComplete<QCPRange, std::true_type>,
        // property 'rangeReversed'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'ticker'
        QtPrivate::TypeAndForceComplete<QSharedPointer<QCPAxisTicker>, std::true_type>,
        // property 'ticks'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'tickLabels'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'tickLabelPadding'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'tickLabelFont'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'tickLabelColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'tickLabelRotation'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'tickLabelSide'
        QtPrivate::TypeAndForceComplete<LabelSide, std::true_type>,
        // property 'numberFormat'
        QtPrivate::TypeAndForceComplete<QString, std::true_type>,
        // property 'numberPrecision'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'tickVector'
        QtPrivate::TypeAndForceComplete<QList<double>, std::true_type>,
        // property 'tickVectorLabels'
        QtPrivate::TypeAndForceComplete<QList<QString>, std::true_type>,
        // property 'tickLengthIn'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'tickLengthOut'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'subTicks'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'subTickLengthIn'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'subTickLengthOut'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'basePen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'tickPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'subTickPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'labelFont'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'labelColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'label'
        QtPrivate::TypeAndForceComplete<QString, std::true_type>,
        // property 'labelPadding'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'padding'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'offset'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'selectedParts'
        QtPrivate::TypeAndForceComplete<SelectableParts, std::true_type>,
        // property 'selectableParts'
        QtPrivate::TypeAndForceComplete<SelectableParts, std::true_type>,
        // property 'selectedTickLabelFont'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'selectedLabelFont'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'selectedTickLabelColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'selectedLabelColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'selectedBasePen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedTickPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedSubTickPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'lowerEnding'
        QtPrivate::TypeAndForceComplete<QCPLineEnding, std::true_type>,
        // property 'upperEnding'
        QtPrivate::TypeAndForceComplete<QCPLineEnding, std::true_type>,
        // property 'grid'
        QtPrivate::TypeAndForceComplete<QCPGrid*, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAxis, std::true_type>,
        // method 'rangeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'rangeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'scaleTypeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::ScaleType, std::false_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPAxis::SelectableParts &, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPAxis::SelectableParts &, std::false_type>,
        // method 'setScaleType'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::ScaleType, std::false_type>,
        // method 'setRange'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'setSelectableParts'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPAxis::SelectableParts &, std::false_type>,
        // method 'setSelectedParts'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPAxis::SelectableParts &, std::false_type>
    >,
    nullptr
} };

void QCPAxis::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPAxis *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->rangeChanged((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 1: _t->rangeChanged((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[2]))); break;
        case 2: _t->scaleTypeChanged((*reinterpret_cast< std::add_pointer_t<QCPAxis::ScaleType>>(_a[1]))); break;
        case 3: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<QCPAxis::SelectableParts>>(_a[1]))); break;
        case 4: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<QCPAxis::SelectableParts>>(_a[1]))); break;
        case 5: _t->setScaleType((*reinterpret_cast< std::add_pointer_t<QCPAxis::ScaleType>>(_a[1]))); break;
        case 6: _t->setRange((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 7: _t->setSelectableParts((*reinterpret_cast< std::add_pointer_t<QCPAxis::SelectableParts>>(_a[1]))); break;
        case 8: _t->setSelectedParts((*reinterpret_cast< std::add_pointer_t<QCPAxis::SelectableParts>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        switch (_id) {
        default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
        case 2:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis::ScaleType >(); break;
            }
            break;
        case 5:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis::ScaleType >(); break;
            }
            break;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPAxis::*)(const QCPRange & );
            if (_t _q_method = &QCPAxis::rangeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPAxis::*)(const QCPRange & , const QCPRange & );
            if (_t _q_method = &QCPAxis::rangeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPAxis::*)(QCPAxis::ScaleType );
            if (_t _q_method = &QCPAxis::scaleTypeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
        {
            using _t = void (QCPAxis::*)(const QCPAxis::SelectableParts & );
            if (_t _q_method = &QCPAxis::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 3;
                return;
            }
        }
        {
            using _t = void (QCPAxis::*)(const QCPAxis::SelectableParts & );
            if (_t _q_method = &QCPAxis::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 4;
                return;
            }
        }
    } else if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 1:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPAxisRect* >(); break;
        case 42:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPGrid* >(); break;
        case 15:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QList<double> >(); break;
        case 5:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QSharedPointer<QCPAxisTicker> >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPAxis *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< AxisType*>(_v) = _t->axisType(); break;
        case 1: *reinterpret_cast< QCPAxisRect**>(_v) = _t->axisRect(); break;
        case 2: *reinterpret_cast< ScaleType*>(_v) = _t->scaleType(); break;
        case 3: *reinterpret_cast< QCPRange*>(_v) = _t->range(); break;
        case 4: *reinterpret_cast< bool*>(_v) = _t->rangeReversed(); break;
        case 5: *reinterpret_cast< QSharedPointer<QCPAxisTicker>*>(_v) = _t->ticker(); break;
        case 6: *reinterpret_cast< bool*>(_v) = _t->ticks(); break;
        case 7: *reinterpret_cast< bool*>(_v) = _t->tickLabels(); break;
        case 8: *reinterpret_cast< int*>(_v) = _t->tickLabelPadding(); break;
        case 9: *reinterpret_cast< QFont*>(_v) = _t->tickLabelFont(); break;
        case 10: *reinterpret_cast< QColor*>(_v) = _t->tickLabelColor(); break;
        case 11: *reinterpret_cast< double*>(_v) = _t->tickLabelRotation(); break;
        case 12: *reinterpret_cast< LabelSide*>(_v) = _t->tickLabelSide(); break;
        case 13: *reinterpret_cast< QString*>(_v) = _t->numberFormat(); break;
        case 14: *reinterpret_cast< int*>(_v) = _t->numberPrecision(); break;
        case 15: *reinterpret_cast< QList<double>*>(_v) = _t->tickVector(); break;
        case 16: *reinterpret_cast< QList<QString>*>(_v) = _t->tickVectorLabels(); break;
        case 17: *reinterpret_cast< int*>(_v) = _t->tickLengthIn(); break;
        case 18: *reinterpret_cast< int*>(_v) = _t->tickLengthOut(); break;
        case 19: *reinterpret_cast< bool*>(_v) = _t->subTicks(); break;
        case 20: *reinterpret_cast< int*>(_v) = _t->subTickLengthIn(); break;
        case 21: *reinterpret_cast< int*>(_v) = _t->subTickLengthOut(); break;
        case 22: *reinterpret_cast< QPen*>(_v) = _t->basePen(); break;
        case 23: *reinterpret_cast< QPen*>(_v) = _t->tickPen(); break;
        case 24: *reinterpret_cast< QPen*>(_v) = _t->subTickPen(); break;
        case 25: *reinterpret_cast< QFont*>(_v) = _t->labelFont(); break;
        case 26: *reinterpret_cast< QColor*>(_v) = _t->labelColor(); break;
        case 27: *reinterpret_cast< QString*>(_v) = _t->label(); break;
        case 28: *reinterpret_cast< int*>(_v) = _t->labelPadding(); break;
        case 29: *reinterpret_cast< int*>(_v) = _t->padding(); break;
        case 30: *reinterpret_cast< int*>(_v) = _t->offset(); break;
        case 31: *reinterpret_cast<int*>(_v) = QFlag(_t->selectedParts()); break;
        case 32: *reinterpret_cast<int*>(_v) = QFlag(_t->selectableParts()); break;
        case 33: *reinterpret_cast< QFont*>(_v) = _t->selectedTickLabelFont(); break;
        case 34: *reinterpret_cast< QFont*>(_v) = _t->selectedLabelFont(); break;
        case 35: *reinterpret_cast< QColor*>(_v) = _t->selectedTickLabelColor(); break;
        case 36: *reinterpret_cast< QColor*>(_v) = _t->selectedLabelColor(); break;
        case 37: *reinterpret_cast< QPen*>(_v) = _t->selectedBasePen(); break;
        case 38: *reinterpret_cast< QPen*>(_v) = _t->selectedTickPen(); break;
        case 39: *reinterpret_cast< QPen*>(_v) = _t->selectedSubTickPen(); break;
        case 40: *reinterpret_cast< QCPLineEnding*>(_v) = _t->lowerEnding(); break;
        case 41: *reinterpret_cast< QCPLineEnding*>(_v) = _t->upperEnding(); break;
        case 42: *reinterpret_cast< QCPGrid**>(_v) = _t->grid(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPAxis *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 2: _t->setScaleType(*reinterpret_cast< ScaleType*>(_v)); break;
        case 3: _t->setRange(*reinterpret_cast< QCPRange*>(_v)); break;
        case 4: _t->setRangeReversed(*reinterpret_cast< bool*>(_v)); break;
        case 5: _t->setTicker(*reinterpret_cast< QSharedPointer<QCPAxisTicker>*>(_v)); break;
        case 6: _t->setTicks(*reinterpret_cast< bool*>(_v)); break;
        case 7: _t->setTickLabels(*reinterpret_cast< bool*>(_v)); break;
        case 8: _t->setTickLabelPadding(*reinterpret_cast< int*>(_v)); break;
        case 9: _t->setTickLabelFont(*reinterpret_cast< QFont*>(_v)); break;
        case 10: _t->setTickLabelColor(*reinterpret_cast< QColor*>(_v)); break;
        case 11: _t->setTickLabelRotation(*reinterpret_cast< double*>(_v)); break;
        case 12: _t->setTickLabelSide(*reinterpret_cast< LabelSide*>(_v)); break;
        case 13: _t->setNumberFormat(*reinterpret_cast< QString*>(_v)); break;
        case 14: _t->setNumberPrecision(*reinterpret_cast< int*>(_v)); break;
        case 17: _t->setTickLengthIn(*reinterpret_cast< int*>(_v)); break;
        case 18: _t->setTickLengthOut(*reinterpret_cast< int*>(_v)); break;
        case 19: _t->setSubTicks(*reinterpret_cast< bool*>(_v)); break;
        case 20: _t->setSubTickLengthIn(*reinterpret_cast< int*>(_v)); break;
        case 21: _t->setSubTickLengthOut(*reinterpret_cast< int*>(_v)); break;
        case 22: _t->setBasePen(*reinterpret_cast< QPen*>(_v)); break;
        case 23: _t->setTickPen(*reinterpret_cast< QPen*>(_v)); break;
        case 24: _t->setSubTickPen(*reinterpret_cast< QPen*>(_v)); break;
        case 25: _t->setLabelFont(*reinterpret_cast< QFont*>(_v)); break;
        case 26: _t->setLabelColor(*reinterpret_cast< QColor*>(_v)); break;
        case 27: _t->setLabel(*reinterpret_cast< QString*>(_v)); break;
        case 28: _t->setLabelPadding(*reinterpret_cast< int*>(_v)); break;
        case 29: _t->setPadding(*reinterpret_cast< int*>(_v)); break;
        case 30: _t->setOffset(*reinterpret_cast< int*>(_v)); break;
        case 31: _t->setSelectedParts(QFlag(*reinterpret_cast<int*>(_v))); break;
        case 32: _t->setSelectableParts(QFlag(*reinterpret_cast<int*>(_v))); break;
        case 33: _t->setSelectedTickLabelFont(*reinterpret_cast< QFont*>(_v)); break;
        case 34: _t->setSelectedLabelFont(*reinterpret_cast< QFont*>(_v)); break;
        case 35: _t->setSelectedTickLabelColor(*reinterpret_cast< QColor*>(_v)); break;
        case 36: _t->setSelectedLabelColor(*reinterpret_cast< QColor*>(_v)); break;
        case 37: _t->setSelectedBasePen(*reinterpret_cast< QPen*>(_v)); break;
        case 38: _t->setSelectedTickPen(*reinterpret_cast< QPen*>(_v)); break;
        case 39: _t->setSelectedSubTickPen(*reinterpret_cast< QPen*>(_v)); break;
        case 40: _t->setLowerEnding(*reinterpret_cast< QCPLineEnding*>(_v)); break;
        case 41: _t->setUpperEnding(*reinterpret_cast< QCPLineEnding*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPAxis::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPAxis::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPAxisENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPAxis::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 9)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 9;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 9)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 9;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 43;
    }
    return _id;
}

// SIGNAL 0
void QCPAxis::rangeChanged(const QCPRange & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPAxis::rangeChanged(const QCPRange & _t1, const QCPRange & _t2)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPAxis::scaleTypeChanged(QCPAxis::ScaleType _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}

// SIGNAL 3
void QCPAxis::selectionChanged(const QCPAxis::SelectableParts & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 3, _a);
}

// SIGNAL 4
void QCPAxis::selectableChanged(const QCPAxis::SelectableParts & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 4, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPScatterStyleENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPScatterStyleENDCLASS = QtMocHelpers::stringData(
    "QCPScatterStyle",
    "ScatterProperty",
    "spNone",
    "spPen",
    "spBrush",
    "spSize",
    "spShape",
    "spAll",
    "ScatterProperties",
    "ScatterShape",
    "ssNone",
    "ssDot",
    "ssCross",
    "ssPlus",
    "ssCircle",
    "ssDisc",
    "ssSquare",
    "ssDiamond",
    "ssStar",
    "ssTriangle",
    "ssTriangleInverted",
    "ssCrossSquare",
    "ssPlusSquare",
    "ssCrossCircle",
    "ssPlusCircle",
    "ssPeace",
    "ssPixmap",
    "ssCustom"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPScatterStyleENDCLASS_t {
    uint offsetsAndSizes[56];
    char stringdata0[16];
    char stringdata1[16];
    char stringdata2[7];
    char stringdata3[6];
    char stringdata4[8];
    char stringdata5[7];
    char stringdata6[8];
    char stringdata7[6];
    char stringdata8[18];
    char stringdata9[13];
    char stringdata10[7];
    char stringdata11[6];
    char stringdata12[8];
    char stringdata13[7];
    char stringdata14[9];
    char stringdata15[7];
    char stringdata16[9];
    char stringdata17[10];
    char stringdata18[7];
    char stringdata19[11];
    char stringdata20[19];
    char stringdata21[14];
    char stringdata22[13];
    char stringdata23[14];
    char stringdata24[13];
    char stringdata25[8];
    char stringdata26[9];
    char stringdata27[9];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPScatterStyleENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPScatterStyleENDCLASS_t qt_meta_stringdata_CLASSQCPScatterStyleENDCLASS = {
    {
        QT_MOC_LITERAL(0, 15),  // "QCPScatterStyle"
        QT_MOC_LITERAL(16, 15),  // "ScatterProperty"
        QT_MOC_LITERAL(32, 6),  // "spNone"
        QT_MOC_LITERAL(39, 5),  // "spPen"
        QT_MOC_LITERAL(45, 7),  // "spBrush"
        QT_MOC_LITERAL(53, 6),  // "spSize"
        QT_MOC_LITERAL(60, 7),  // "spShape"
        QT_MOC_LITERAL(68, 5),  // "spAll"
        QT_MOC_LITERAL(74, 17),  // "ScatterProperties"
        QT_MOC_LITERAL(92, 12),  // "ScatterShape"
        QT_MOC_LITERAL(105, 6),  // "ssNone"
        QT_MOC_LITERAL(112, 5),  // "ssDot"
        QT_MOC_LITERAL(118, 7),  // "ssCross"
        QT_MOC_LITERAL(126, 6),  // "ssPlus"
        QT_MOC_LITERAL(133, 8),  // "ssCircle"
        QT_MOC_LITERAL(142, 6),  // "ssDisc"
        QT_MOC_LITERAL(149, 8),  // "ssSquare"
        QT_MOC_LITERAL(158, 9),  // "ssDiamond"
        QT_MOC_LITERAL(168, 6),  // "ssStar"
        QT_MOC_LITERAL(175, 10),  // "ssTriangle"
        QT_MOC_LITERAL(186, 18),  // "ssTriangleInverted"
        QT_MOC_LITERAL(205, 13),  // "ssCrossSquare"
        QT_MOC_LITERAL(219, 12),  // "ssPlusSquare"
        QT_MOC_LITERAL(232, 13),  // "ssCrossCircle"
        QT_MOC_LITERAL(246, 12),  // "ssPlusCircle"
        QT_MOC_LITERAL(259, 7),  // "ssPeace"
        QT_MOC_LITERAL(267, 8),  // "ssPixmap"
        QT_MOC_LITERAL(276, 8)   // "ssCustom"
    },
    "QCPScatterStyle",
    "ScatterProperty",
    "spNone",
    "spPen",
    "spBrush",
    "spSize",
    "spShape",
    "spAll",
    "ScatterProperties",
    "ScatterShape",
    "ssNone",
    "ssDot",
    "ssCross",
    "ssPlus",
    "ssCircle",
    "ssDisc",
    "ssSquare",
    "ssDiamond",
    "ssStar",
    "ssTriangle",
    "ssTriangleInverted",
    "ssCrossSquare",
    "ssPlusSquare",
    "ssCrossCircle",
    "ssPlusCircle",
    "ssPeace",
    "ssPixmap",
    "ssCustom"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPScatterStyleENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       3,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    6,   29,
       8,    1, 0x1,    6,   41,
       9,    9, 0x0,   18,   53,

 // enum data: key, value
       2, uint(QCPScatterStyle::spNone),
       3, uint(QCPScatterStyle::spPen),
       4, uint(QCPScatterStyle::spBrush),
       5, uint(QCPScatterStyle::spSize),
       6, uint(QCPScatterStyle::spShape),
       7, uint(QCPScatterStyle::spAll),
       2, uint(QCPScatterStyle::spNone),
       3, uint(QCPScatterStyle::spPen),
       4, uint(QCPScatterStyle::spBrush),
       5, uint(QCPScatterStyle::spSize),
       6, uint(QCPScatterStyle::spShape),
       7, uint(QCPScatterStyle::spAll),
      10, uint(QCPScatterStyle::ssNone),
      11, uint(QCPScatterStyle::ssDot),
      12, uint(QCPScatterStyle::ssCross),
      13, uint(QCPScatterStyle::ssPlus),
      14, uint(QCPScatterStyle::ssCircle),
      15, uint(QCPScatterStyle::ssDisc),
      16, uint(QCPScatterStyle::ssSquare),
      17, uint(QCPScatterStyle::ssDiamond),
      18, uint(QCPScatterStyle::ssStar),
      19, uint(QCPScatterStyle::ssTriangle),
      20, uint(QCPScatterStyle::ssTriangleInverted),
      21, uint(QCPScatterStyle::ssCrossSquare),
      22, uint(QCPScatterStyle::ssPlusSquare),
      23, uint(QCPScatterStyle::ssCrossCircle),
      24, uint(QCPScatterStyle::ssPlusCircle),
      25, uint(QCPScatterStyle::ssPeace),
      26, uint(QCPScatterStyle::ssPixmap),
      27, uint(QCPScatterStyle::ssCustom),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPScatterStyle::staticMetaObject = { {
    nullptr,
    qt_meta_stringdata_CLASSQCPScatterStyleENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPScatterStyleENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPScatterStyleENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPScatterStyle, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPSelectionDecoratorENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPSelectionDecoratorENDCLASS = QtMocHelpers::stringData(
    "QCPSelectionDecorator"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPSelectionDecoratorENDCLASS_t {
    uint offsetsAndSizes[2];
    char stringdata0[22];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPSelectionDecoratorENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPSelectionDecoratorENDCLASS_t qt_meta_stringdata_CLASSQCPSelectionDecoratorENDCLASS = {
    {
        QT_MOC_LITERAL(0, 21)   // "QCPSelectionDecorator"
    },
    "QCPSelectionDecorator"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPSelectionDecoratorENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPSelectionDecorator::staticMetaObject = { {
    nullptr,
    qt_meta_stringdata_CLASSQCPSelectionDecoratorENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPSelectionDecoratorENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPSelectionDecoratorENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPSelectionDecorator, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS = QtMocHelpers::stringData(
    "QCPAbstractPlottable",
    "selectionChanged",
    "",
    "selected",
    "QCPDataSelection",
    "selection",
    "selectableChanged",
    "QCP::SelectionType",
    "selectable",
    "setSelectable",
    "setSelection",
    "name",
    "antialiasedFill",
    "antialiasedScatters",
    "pen",
    "brush",
    "keyAxis",
    "QCPAxis*",
    "valueAxis",
    "selectionDecorator",
    "QCPSelectionDecorator*"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS_t {
    uint offsetsAndSizes[42];
    char stringdata0[21];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[17];
    char stringdata5[10];
    char stringdata6[18];
    char stringdata7[19];
    char stringdata8[11];
    char stringdata9[14];
    char stringdata10[13];
    char stringdata11[5];
    char stringdata12[16];
    char stringdata13[20];
    char stringdata14[4];
    char stringdata15[6];
    char stringdata16[8];
    char stringdata17[9];
    char stringdata18[10];
    char stringdata19[19];
    char stringdata20[23];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS_t qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS = {
    {
        QT_MOC_LITERAL(0, 20),  // "QCPAbstractPlottable"
        QT_MOC_LITERAL(21, 16),  // "selectionChanged"
        QT_MOC_LITERAL(38, 0),  // ""
        QT_MOC_LITERAL(39, 8),  // "selected"
        QT_MOC_LITERAL(48, 16),  // "QCPDataSelection"
        QT_MOC_LITERAL(65, 9),  // "selection"
        QT_MOC_LITERAL(75, 17),  // "selectableChanged"
        QT_MOC_LITERAL(93, 18),  // "QCP::SelectionType"
        QT_MOC_LITERAL(112, 10),  // "selectable"
        QT_MOC_LITERAL(123, 13),  // "setSelectable"
        QT_MOC_LITERAL(137, 12),  // "setSelection"
        QT_MOC_LITERAL(150, 4),  // "name"
        QT_MOC_LITERAL(155, 15),  // "antialiasedFill"
        QT_MOC_LITERAL(171, 19),  // "antialiasedScatters"
        QT_MOC_LITERAL(191, 3),  // "pen"
        QT_MOC_LITERAL(195, 5),  // "brush"
        QT_MOC_LITERAL(201, 7),  // "keyAxis"
        QT_MOC_LITERAL(209, 8),  // "QCPAxis*"
        QT_MOC_LITERAL(218, 9),  // "valueAxis"
        QT_MOC_LITERAL(228, 18),  // "selectionDecorator"
        QT_MOC_LITERAL(247, 22)   // "QCPSelectionDecorator*"
    },
    "QCPAbstractPlottable",
    "selectionChanged",
    "",
    "selected",
    "QCPDataSelection",
    "selection",
    "selectableChanged",
    "QCP::SelectionType",
    "selectable",
    "setSelectable",
    "setSelection",
    "name",
    "antialiasedFill",
    "antialiasedScatters",
    "pen",
    "brush",
    "keyAxis",
    "QCPAxis*",
    "valueAxis",
    "selectionDecorator",
    "QCPSelectionDecorator*"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAbstractPlottableENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       5,   14, // methods
      10,   59, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       3,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   44,    2, 0x06,   11 /* Public */,
       1,    1,   47,    2, 0x06,   13 /* Public */,
       6,    1,   50,    2, 0x06,   15 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
       9,    1,   53,    2, 0x0a,   17 /* Public */,
      10,    1,   56,    2, 0x0a,   19 /* Public */,

 // signals: parameters
    QMetaType::Void, QMetaType::Bool,    3,
    QMetaType::Void, 0x80000000 | 4,    5,
    QMetaType::Void, 0x80000000 | 7,    8,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 7,    8,
    QMetaType::Void, 0x80000000 | 4,    5,

 // properties: name, type, flags
      11, QMetaType::QString, 0x00015103, uint(-1), 0,
      12, QMetaType::Bool, 0x00015103, uint(-1), 0,
      13, QMetaType::Bool, 0x00015103, uint(-1), 0,
      14, QMetaType::QPen, 0x00015103, uint(-1), 0,
      15, QMetaType::QBrush, 0x00015103, uint(-1), 0,
      16, 0x80000000 | 17, 0x0001510b, uint(-1), 0,
      18, 0x80000000 | 17, 0x0001510b, uint(-1), 0,
       8, 0x80000000 | 7, 0x0001510b, uint(2), 0,
       5, 0x80000000 | 4, 0x0001510b, uint(0), 0,
      19, 0x80000000 | 20, 0x0001510b, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT static const QMetaObject::SuperData qt_meta_extradata_CLASSQCPAbstractPlottableENDCLASS[] = {
    QMetaObject::SuperData::link<QCP::staticMetaObject>(),
    nullptr
};

Q_CONSTINIT const QMetaObject QCPAbstractPlottable::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAbstractPlottableENDCLASS,
    qt_static_metacall,
    qt_meta_extradata_CLASSQCPAbstractPlottableENDCLASS,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS_t,
        // property 'name'
        QtPrivate::TypeAndForceComplete<QString, std::true_type>,
        // property 'antialiasedFill'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'antialiasedScatters'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'brush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'keyAxis'
        QtPrivate::TypeAndForceComplete<QCPAxis*, std::true_type>,
        // property 'valueAxis'
        QtPrivate::TypeAndForceComplete<QCPAxis*, std::true_type>,
        // property 'selectable'
        QtPrivate::TypeAndForceComplete<QCP::SelectionType, std::true_type>,
        // property 'selection'
        QtPrivate::TypeAndForceComplete<QCPDataSelection, std::true_type>,
        // property 'selectionDecorator'
        QtPrivate::TypeAndForceComplete<QCPSelectionDecorator*, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAbstractPlottable, std::true_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPDataSelection &, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCP::SelectionType, std::false_type>,
        // method 'setSelectable'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCP::SelectionType, std::false_type>,
        // method 'setSelection'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPDataSelection, std::false_type>
    >,
    nullptr
} };

void QCPAbstractPlottable::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPAbstractPlottable *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 1: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<QCPDataSelection>>(_a[1]))); break;
        case 2: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<QCP::SelectionType>>(_a[1]))); break;
        case 3: _t->setSelectable((*reinterpret_cast< std::add_pointer_t<QCP::SelectionType>>(_a[1]))); break;
        case 4: _t->setSelection((*reinterpret_cast< std::add_pointer_t<QCPDataSelection>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        switch (_id) {
        default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
        case 1:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPDataSelection >(); break;
            }
            break;
        case 4:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPDataSelection >(); break;
            }
            break;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPAbstractPlottable::*)(bool );
            if (_t _q_method = &QCPAbstractPlottable::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPAbstractPlottable::*)(const QCPDataSelection & );
            if (_t _q_method = &QCPAbstractPlottable::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPAbstractPlottable::*)(QCP::SelectionType );
            if (_t _q_method = &QCPAbstractPlottable::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
    } else if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 6:
        case 5:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPAxis* >(); break;
        case 8:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPDataSelection >(); break;
        case 9:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPSelectionDecorator* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPAbstractPlottable *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QString*>(_v) = _t->name(); break;
        case 1: *reinterpret_cast< bool*>(_v) = _t->antialiasedFill(); break;
        case 2: *reinterpret_cast< bool*>(_v) = _t->antialiasedScatters(); break;
        case 3: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 4: *reinterpret_cast< QBrush*>(_v) = _t->brush(); break;
        case 5: *reinterpret_cast< QCPAxis**>(_v) = _t->keyAxis(); break;
        case 6: *reinterpret_cast< QCPAxis**>(_v) = _t->valueAxis(); break;
        case 7: *reinterpret_cast< QCP::SelectionType*>(_v) = _t->selectable(); break;
        case 8: *reinterpret_cast< QCPDataSelection*>(_v) = _t->selection(); break;
        case 9: *reinterpret_cast< QCPSelectionDecorator**>(_v) = _t->selectionDecorator(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPAbstractPlottable *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setName(*reinterpret_cast< QString*>(_v)); break;
        case 1: _t->setAntialiasedFill(*reinterpret_cast< bool*>(_v)); break;
        case 2: _t->setAntialiasedScatters(*reinterpret_cast< bool*>(_v)); break;
        case 3: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 4: _t->setBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 5: _t->setKeyAxis(*reinterpret_cast< QCPAxis**>(_v)); break;
        case 6: _t->setValueAxis(*reinterpret_cast< QCPAxis**>(_v)); break;
        case 7: _t->setSelectable(*reinterpret_cast< QCP::SelectionType*>(_v)); break;
        case 8: _t->setSelection(*reinterpret_cast< QCPDataSelection*>(_v)); break;
        case 9: _t->setSelectionDecorator(*reinterpret_cast< QCPSelectionDecorator**>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPAbstractPlottable::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPAbstractPlottable::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPAbstractPlottableENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPAbstractPlottable::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 5)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 5)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 10;
    }
    return _id;
}

// SIGNAL 0
void QCPAbstractPlottable::selectionChanged(bool _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPAbstractPlottable::selectionChanged(const QCPDataSelection & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPAbstractPlottable::selectableChanged(QCP::SelectionType _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemAnchorENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemAnchorENDCLASS = QtMocHelpers::stringData(
    "QCPItemAnchor"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemAnchorENDCLASS_t {
    uint offsetsAndSizes[2];
    char stringdata0[14];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemAnchorENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemAnchorENDCLASS_t qt_meta_stringdata_CLASSQCPItemAnchorENDCLASS = {
    {
        QT_MOC_LITERAL(0, 13)   // "QCPItemAnchor"
    },
    "QCPItemAnchor"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemAnchorENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemAnchor::staticMetaObject = { {
    nullptr,
    qt_meta_stringdata_CLASSQCPItemAnchorENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemAnchorENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemAnchorENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemAnchor, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemPositionENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemPositionENDCLASS = QtMocHelpers::stringData(
    "QCPItemPosition",
    "PositionType",
    "ptAbsolute",
    "ptViewportRatio",
    "ptAxisRectRatio",
    "ptPlotCoords"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemPositionENDCLASS_t {
    uint offsetsAndSizes[12];
    char stringdata0[16];
    char stringdata1[13];
    char stringdata2[11];
    char stringdata3[16];
    char stringdata4[16];
    char stringdata5[13];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemPositionENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemPositionENDCLASS_t qt_meta_stringdata_CLASSQCPItemPositionENDCLASS = {
    {
        QT_MOC_LITERAL(0, 15),  // "QCPItemPosition"
        QT_MOC_LITERAL(16, 12),  // "PositionType"
        QT_MOC_LITERAL(29, 10),  // "ptAbsolute"
        QT_MOC_LITERAL(40, 15),  // "ptViewportRatio"
        QT_MOC_LITERAL(56, 15),  // "ptAxisRectRatio"
        QT_MOC_LITERAL(72, 12)   // "ptPlotCoords"
    },
    "QCPItemPosition",
    "PositionType",
    "ptAbsolute",
    "ptViewportRatio",
    "ptAxisRectRatio",
    "ptPlotCoords"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemPositionENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       1,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    4,   19,

 // enum data: key, value
       2, uint(QCPItemPosition::ptAbsolute),
       3, uint(QCPItemPosition::ptViewportRatio),
       4, uint(QCPItemPosition::ptAxisRectRatio),
       5, uint(QCPItemPosition::ptPlotCoords),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemPosition::staticMetaObject = { {
    QtPrivate::MetaObjectForType<QCPItemAnchor>::value,
    qt_meta_stringdata_CLASSQCPItemPositionENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemPositionENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemPositionENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemPosition, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS = QtMocHelpers::stringData(
    "QCPAbstractItem",
    "selectionChanged",
    "",
    "selected",
    "selectableChanged",
    "selectable",
    "setSelectable",
    "setSelected",
    "clipToAxisRect",
    "clipAxisRect",
    "QCPAxisRect*"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS_t {
    uint offsetsAndSizes[22];
    char stringdata0[16];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[18];
    char stringdata5[11];
    char stringdata6[14];
    char stringdata7[12];
    char stringdata8[15];
    char stringdata9[13];
    char stringdata10[13];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS_t qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS = {
    {
        QT_MOC_LITERAL(0, 15),  // "QCPAbstractItem"
        QT_MOC_LITERAL(16, 16),  // "selectionChanged"
        QT_MOC_LITERAL(33, 0),  // ""
        QT_MOC_LITERAL(34, 8),  // "selected"
        QT_MOC_LITERAL(43, 17),  // "selectableChanged"
        QT_MOC_LITERAL(61, 10),  // "selectable"
        QT_MOC_LITERAL(72, 13),  // "setSelectable"
        QT_MOC_LITERAL(86, 11),  // "setSelected"
        QT_MOC_LITERAL(98, 14),  // "clipToAxisRect"
        QT_MOC_LITERAL(113, 12),  // "clipAxisRect"
        QT_MOC_LITERAL(126, 12)   // "QCPAxisRect*"
    },
    "QCPAbstractItem",
    "selectionChanged",
    "",
    "selected",
    "selectableChanged",
    "selectable",
    "setSelectable",
    "setSelected",
    "clipToAxisRect",
    "clipAxisRect",
    "QCPAxisRect*"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAbstractItemENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       4,   14, // methods
       4,   50, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       2,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   38,    2, 0x06,    5 /* Public */,
       4,    1,   41,    2, 0x06,    7 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
       6,    1,   44,    2, 0x0a,    9 /* Public */,
       7,    1,   47,    2, 0x0a,   11 /* Public */,

 // signals: parameters
    QMetaType::Void, QMetaType::Bool,    3,
    QMetaType::Void, QMetaType::Bool,    5,

 // slots: parameters
    QMetaType::Void, QMetaType::Bool,    5,
    QMetaType::Void, QMetaType::Bool,    3,

 // properties: name, type, flags
       8, QMetaType::Bool, 0x00015103, uint(-1), 0,
       9, 0x80000000 | 10, 0x0001510b, uint(-1), 0,
       5, QMetaType::Bool, 0x00015103, uint(1), 0,
       3, QMetaType::Bool, 0x00015103, uint(0), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPAbstractItem::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAbstractItemENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS_t,
        // property 'clipToAxisRect'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'clipAxisRect'
        QtPrivate::TypeAndForceComplete<QCPAxisRect*, std::true_type>,
        // property 'selectable'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'selected'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAbstractItem, std::true_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'setSelectable'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'setSelected'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>
    >,
    nullptr
} };

void QCPAbstractItem::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPAbstractItem *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 1: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 2: _t->setSelectable((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 3: _t->setSelected((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPAbstractItem::*)(bool );
            if (_t _q_method = &QCPAbstractItem::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPAbstractItem::*)(bool );
            if (_t _q_method = &QCPAbstractItem::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
    } else if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 1:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPAxisRect* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPAbstractItem *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< bool*>(_v) = _t->clipToAxisRect(); break;
        case 1: *reinterpret_cast< QCPAxisRect**>(_v) = _t->clipAxisRect(); break;
        case 2: *reinterpret_cast< bool*>(_v) = _t->selectable(); break;
        case 3: *reinterpret_cast< bool*>(_v) = _t->selected(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPAbstractItem *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setClipToAxisRect(*reinterpret_cast< bool*>(_v)); break;
        case 1: _t->setClipAxisRect(*reinterpret_cast< QCPAxisRect**>(_v)); break;
        case 2: _t->setSelectable(*reinterpret_cast< bool*>(_v)); break;
        case 3: _t->setSelected(*reinterpret_cast< bool*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPAbstractItem::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPAbstractItem::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPAbstractItemENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPAbstractItem::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 4)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 4)
            *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType();
        _id -= 4;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    }
    return _id;
}

// SIGNAL 0
void QCPAbstractItem::selectionChanged(bool _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPAbstractItem::selectableChanged(bool _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCustomPlotENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCustomPlotENDCLASS = QtMocHelpers::stringData(
    "QCustomPlot",
    "mouseDoubleClick",
    "",
    "QMouseEvent*",
    "event",
    "mousePress",
    "mouseMove",
    "mouseRelease",
    "mouseWheel",
    "QWheelEvent*",
    "plottableClick",
    "QCPAbstractPlottable*",
    "plottable",
    "dataIndex",
    "plottableDoubleClick",
    "itemClick",
    "QCPAbstractItem*",
    "item",
    "itemDoubleClick",
    "axisClick",
    "QCPAxis*",
    "axis",
    "QCPAxis::SelectablePart",
    "part",
    "axisDoubleClick",
    "legendClick",
    "QCPLegend*",
    "legend",
    "QCPAbstractLegendItem*",
    "legendDoubleClick",
    "selectionChangedByUser",
    "beforeReplot",
    "afterLayout",
    "afterReplot",
    "rescaleAxes",
    "onlyVisiblePlottables",
    "deselectAll",
    "replot",
    "QCustomPlot::RefreshPriority",
    "refreshPriority",
    "processRectSelection",
    "rect",
    "processRectZoom",
    "processPointSelection",
    "viewport",
    "background",
    "backgroundScaled",
    "backgroundScaledMode",
    "Qt::AspectRatioMode",
    "plotLayout",
    "QCPLayoutGrid*",
    "autoAddPlottableToLegend",
    "selectionTolerance",
    "noAntialiasingOnDrag",
    "multiSelectModifier",
    "Qt::KeyboardModifier",
    "openGl",
    "LayerInsertMode",
    "limBelow",
    "limAbove",
    "RefreshPriority",
    "rpImmediateRefresh",
    "rpQueuedRefresh",
    "rpRefreshHint",
    "rpQueuedReplot"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCustomPlotENDCLASS_t {
    uint offsetsAndSizes[130];
    char stringdata0[12];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[13];
    char stringdata4[6];
    char stringdata5[11];
    char stringdata6[10];
    char stringdata7[13];
    char stringdata8[11];
    char stringdata9[13];
    char stringdata10[15];
    char stringdata11[22];
    char stringdata12[10];
    char stringdata13[10];
    char stringdata14[21];
    char stringdata15[10];
    char stringdata16[17];
    char stringdata17[5];
    char stringdata18[16];
    char stringdata19[10];
    char stringdata20[9];
    char stringdata21[5];
    char stringdata22[24];
    char stringdata23[5];
    char stringdata24[16];
    char stringdata25[12];
    char stringdata26[11];
    char stringdata27[7];
    char stringdata28[23];
    char stringdata29[18];
    char stringdata30[23];
    char stringdata31[13];
    char stringdata32[12];
    char stringdata33[12];
    char stringdata34[12];
    char stringdata35[22];
    char stringdata36[12];
    char stringdata37[7];
    char stringdata38[29];
    char stringdata39[16];
    char stringdata40[21];
    char stringdata41[5];
    char stringdata42[16];
    char stringdata43[22];
    char stringdata44[9];
    char stringdata45[11];
    char stringdata46[17];
    char stringdata47[21];
    char stringdata48[20];
    char stringdata49[11];
    char stringdata50[15];
    char stringdata51[25];
    char stringdata52[19];
    char stringdata53[21];
    char stringdata54[20];
    char stringdata55[21];
    char stringdata56[7];
    char stringdata57[16];
    char stringdata58[9];
    char stringdata59[9];
    char stringdata60[16];
    char stringdata61[19];
    char stringdata62[16];
    char stringdata63[14];
    char stringdata64[15];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCustomPlotENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCustomPlotENDCLASS_t qt_meta_stringdata_CLASSQCustomPlotENDCLASS = {
    {
        QT_MOC_LITERAL(0, 11),  // "QCustomPlot"
        QT_MOC_LITERAL(12, 16),  // "mouseDoubleClick"
        QT_MOC_LITERAL(29, 0),  // ""
        QT_MOC_LITERAL(30, 12),  // "QMouseEvent*"
        QT_MOC_LITERAL(43, 5),  // "event"
        QT_MOC_LITERAL(49, 10),  // "mousePress"
        QT_MOC_LITERAL(60, 9),  // "mouseMove"
        QT_MOC_LITERAL(70, 12),  // "mouseRelease"
        QT_MOC_LITERAL(83, 10),  // "mouseWheel"
        QT_MOC_LITERAL(94, 12),  // "QWheelEvent*"
        QT_MOC_LITERAL(107, 14),  // "plottableClick"
        QT_MOC_LITERAL(122, 21),  // "QCPAbstractPlottable*"
        QT_MOC_LITERAL(144, 9),  // "plottable"
        QT_MOC_LITERAL(154, 9),  // "dataIndex"
        QT_MOC_LITERAL(164, 20),  // "plottableDoubleClick"
        QT_MOC_LITERAL(185, 9),  // "itemClick"
        QT_MOC_LITERAL(195, 16),  // "QCPAbstractItem*"
        QT_MOC_LITERAL(212, 4),  // "item"
        QT_MOC_LITERAL(217, 15),  // "itemDoubleClick"
        QT_MOC_LITERAL(233, 9),  // "axisClick"
        QT_MOC_LITERAL(243, 8),  // "QCPAxis*"
        QT_MOC_LITERAL(252, 4),  // "axis"
        QT_MOC_LITERAL(257, 23),  // "QCPAxis::SelectablePart"
        QT_MOC_LITERAL(281, 4),  // "part"
        QT_MOC_LITERAL(286, 15),  // "axisDoubleClick"
        QT_MOC_LITERAL(302, 11),  // "legendClick"
        QT_MOC_LITERAL(314, 10),  // "QCPLegend*"
        QT_MOC_LITERAL(325, 6),  // "legend"
        QT_MOC_LITERAL(332, 22),  // "QCPAbstractLegendItem*"
        QT_MOC_LITERAL(355, 17),  // "legendDoubleClick"
        QT_MOC_LITERAL(373, 22),  // "selectionChangedByUser"
        QT_MOC_LITERAL(396, 12),  // "beforeReplot"
        QT_MOC_LITERAL(409, 11),  // "afterLayout"
        QT_MOC_LITERAL(421, 11),  // "afterReplot"
        QT_MOC_LITERAL(433, 11),  // "rescaleAxes"
        QT_MOC_LITERAL(445, 21),  // "onlyVisiblePlottables"
        QT_MOC_LITERAL(467, 11),  // "deselectAll"
        QT_MOC_LITERAL(479, 6),  // "replot"
        QT_MOC_LITERAL(486, 28),  // "QCustomPlot::RefreshPriority"
        QT_MOC_LITERAL(515, 15),  // "refreshPriority"
        QT_MOC_LITERAL(531, 20),  // "processRectSelection"
        QT_MOC_LITERAL(552, 4),  // "rect"
        QT_MOC_LITERAL(557, 15),  // "processRectZoom"
        QT_MOC_LITERAL(573, 21),  // "processPointSelection"
        QT_MOC_LITERAL(595, 8),  // "viewport"
        QT_MOC_LITERAL(604, 10),  // "background"
        QT_MOC_LITERAL(615, 16),  // "backgroundScaled"
        QT_MOC_LITERAL(632, 20),  // "backgroundScaledMode"
        QT_MOC_LITERAL(653, 19),  // "Qt::AspectRatioMode"
        QT_MOC_LITERAL(673, 10),  // "plotLayout"
        QT_MOC_LITERAL(684, 14),  // "QCPLayoutGrid*"
        QT_MOC_LITERAL(699, 24),  // "autoAddPlottableToLegend"
        QT_MOC_LITERAL(724, 18),  // "selectionTolerance"
        QT_MOC_LITERAL(743, 20),  // "noAntialiasingOnDrag"
        QT_MOC_LITERAL(764, 19),  // "multiSelectModifier"
        QT_MOC_LITERAL(784, 20),  // "Qt::KeyboardModifier"
        QT_MOC_LITERAL(805, 6),  // "openGl"
        QT_MOC_LITERAL(812, 15),  // "LayerInsertMode"
        QT_MOC_LITERAL(828, 8),  // "limBelow"
        QT_MOC_LITERAL(837, 8),  // "limAbove"
        QT_MOC_LITERAL(846, 15),  // "RefreshPriority"
        QT_MOC_LITERAL(862, 18),  // "rpImmediateRefresh"
        QT_MOC_LITERAL(881, 15),  // "rpQueuedRefresh"
        QT_MOC_LITERAL(897, 13),  // "rpRefreshHint"
        QT_MOC_LITERAL(911, 14)   // "rpQueuedReplot"
    },
    "QCustomPlot",
    "mouseDoubleClick",
    "",
    "QMouseEvent*",
    "event",
    "mousePress",
    "mouseMove",
    "mouseRelease",
    "mouseWheel",
    "QWheelEvent*",
    "plottableClick",
    "QCPAbstractPlottable*",
    "plottable",
    "dataIndex",
    "plottableDoubleClick",
    "itemClick",
    "QCPAbstractItem*",
    "item",
    "itemDoubleClick",
    "axisClick",
    "QCPAxis*",
    "axis",
    "QCPAxis::SelectablePart",
    "part",
    "axisDoubleClick",
    "legendClick",
    "QCPLegend*",
    "legend",
    "QCPAbstractLegendItem*",
    "legendDoubleClick",
    "selectionChangedByUser",
    "beforeReplot",
    "afterLayout",
    "afterReplot",
    "rescaleAxes",
    "onlyVisiblePlottables",
    "deselectAll",
    "replot",
    "QCustomPlot::RefreshPriority",
    "refreshPriority",
    "processRectSelection",
    "rect",
    "processRectZoom",
    "processPointSelection",
    "viewport",
    "background",
    "backgroundScaled",
    "backgroundScaledMode",
    "Qt::AspectRatioMode",
    "plotLayout",
    "QCPLayoutGrid*",
    "autoAddPlottableToLegend",
    "selectionTolerance",
    "noAntialiasingOnDrag",
    "multiSelectModifier",
    "Qt::KeyboardModifier",
    "openGl",
    "LayerInsertMode",
    "limBelow",
    "limAbove",
    "RefreshPriority",
    "rpImmediateRefresh",
    "rpQueuedRefresh",
    "rpRefreshHint",
    "rpQueuedReplot"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCustomPlotENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
      25,   14, // methods
      10,  257, // properties
       2,  307, // enums/sets
       0,    0, // constructors
       0,       // flags
      17,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,  164,    2, 0x06,   11 /* Public */,
       5,    1,  167,    2, 0x06,   13 /* Public */,
       6,    1,  170,    2, 0x06,   15 /* Public */,
       7,    1,  173,    2, 0x06,   17 /* Public */,
       8,    1,  176,    2, 0x06,   19 /* Public */,
      10,    3,  179,    2, 0x06,   21 /* Public */,
      14,    3,  186,    2, 0x06,   25 /* Public */,
      15,    2,  193,    2, 0x06,   29 /* Public */,
      18,    2,  198,    2, 0x06,   32 /* Public */,
      19,    3,  203,    2, 0x06,   35 /* Public */,
      24,    3,  210,    2, 0x06,   39 /* Public */,
      25,    3,  217,    2, 0x06,   43 /* Public */,
      29,    3,  224,    2, 0x06,   47 /* Public */,
      30,    0,  231,    2, 0x06,   51 /* Public */,
      31,    0,  232,    2, 0x06,   52 /* Public */,
      32,    0,  233,    2, 0x06,   53 /* Public */,
      33,    0,  234,    2, 0x06,   54 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
      34,    1,  235,    2, 0x0a,   55 /* Public */,
      34,    0,  238,    2, 0x2a,   57 /* Public | MethodCloned */,
      36,    0,  239,    2, 0x0a,   58 /* Public */,
      37,    1,  240,    2, 0x0a,   59 /* Public */,
      37,    0,  243,    2, 0x2a,   61 /* Public | MethodCloned */,
      40,    2,  244,    2, 0x09,   62 /* Protected */,
      42,    2,  249,    2, 0x09,   65 /* Protected */,
      43,    1,  254,    2, 0x09,   68 /* Protected */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 9,    4,
    QMetaType::Void, 0x80000000 | 11, QMetaType::Int, 0x80000000 | 3,   12,   13,    4,
    QMetaType::Void, 0x80000000 | 11, QMetaType::Int, 0x80000000 | 3,   12,   13,    4,
    QMetaType::Void, 0x80000000 | 16, 0x80000000 | 3,   17,    4,
    QMetaType::Void, 0x80000000 | 16, 0x80000000 | 3,   17,    4,
    QMetaType::Void, 0x80000000 | 20, 0x80000000 | 22, 0x80000000 | 3,   21,   23,    4,
    QMetaType::Void, 0x80000000 | 20, 0x80000000 | 22, 0x80000000 | 3,   21,   23,    4,
    QMetaType::Void, 0x80000000 | 26, 0x80000000 | 28, 0x80000000 | 3,   27,   17,    4,
    QMetaType::Void, 0x80000000 | 26, 0x80000000 | 28, 0x80000000 | 3,   27,   17,    4,
    QMetaType::Void,
    QMetaType::Void,
    QMetaType::Void,
    QMetaType::Void,

 // slots: parameters
    QMetaType::Void, QMetaType::Bool,   35,
    QMetaType::Void,
    QMetaType::Void,
    QMetaType::Void, 0x80000000 | 38,   39,
    QMetaType::Void,
    QMetaType::Void, QMetaType::QRect, 0x80000000 | 3,   41,    4,
    QMetaType::Void, QMetaType::QRect, 0x80000000 | 3,   41,    4,
    QMetaType::Void, 0x80000000 | 3,    4,

 // properties: name, type, flags
      44, QMetaType::QRect, 0x00015103, uint(-1), 0,
      45, QMetaType::QPixmap, 0x00015103, uint(-1), 0,
      46, QMetaType::Bool, 0x00015103, uint(-1), 0,
      47, 0x80000000 | 48, 0x0001510b, uint(-1), 0,
      49, 0x80000000 | 50, 0x00015009, uint(-1), 0,
      51, QMetaType::Bool, 0x00015103, uint(-1), 0,
      52, QMetaType::Int, 0x00015103, uint(-1), 0,
      53, QMetaType::Bool, 0x00015103, uint(-1), 0,
      54, 0x80000000 | 55, 0x0001510b, uint(-1), 0,
      56, QMetaType::Bool, 0x00015103, uint(-1), 0,

 // enums: name, alias, flags, count, data
      57,   57, 0x0,    2,  317,
      60,   60, 0x0,    4,  321,

 // enum data: key, value
      58, uint(QCustomPlot::limBelow),
      59, uint(QCustomPlot::limAbove),
      61, uint(QCustomPlot::rpImmediateRefresh),
      62, uint(QCustomPlot::rpQueuedRefresh),
      63, uint(QCustomPlot::rpRefreshHint),
      64, uint(QCustomPlot::rpQueuedReplot),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCustomPlot::staticMetaObject = { {
    QMetaObject::SuperData::link<QWidget::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCustomPlotENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCustomPlotENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCustomPlotENDCLASS_t,
        // property 'viewport'
        QtPrivate::TypeAndForceComplete<QRect, std::true_type>,
        // property 'background'
        QtPrivate::TypeAndForceComplete<QPixmap, std::true_type>,
        // property 'backgroundScaled'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'backgroundScaledMode'
        QtPrivate::TypeAndForceComplete<Qt::AspectRatioMode, std::true_type>,
        // property 'plotLayout'
        QtPrivate::TypeAndForceComplete<QCPLayoutGrid*, std::true_type>,
        // property 'autoAddPlottableToLegend'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'selectionTolerance'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'noAntialiasingOnDrag'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'multiSelectModifier'
        QtPrivate::TypeAndForceComplete<Qt::KeyboardModifier, std::true_type>,
        // property 'openGl'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCustomPlot, std::true_type>,
        // method 'mouseDoubleClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'mousePress'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'mouseMove'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'mouseRelease'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'mouseWheel'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QWheelEvent *, std::false_type>,
        // method 'plottableClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAbstractPlottable *, std::false_type>,
        QtPrivate::TypeAndForceComplete<int, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'plottableDoubleClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAbstractPlottable *, std::false_type>,
        QtPrivate::TypeAndForceComplete<int, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'itemClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAbstractItem *, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'itemDoubleClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAbstractItem *, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'axisClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis *, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::SelectablePart, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'axisDoubleClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis *, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::SelectablePart, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'legendClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPLegend *, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAbstractLegendItem *, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'legendDoubleClick'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPLegend *, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAbstractLegendItem *, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'selectionChangedByUser'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        // method 'beforeReplot'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        // method 'afterLayout'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        // method 'afterReplot'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        // method 'rescaleAxes'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'rescaleAxes'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        // method 'deselectAll'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        // method 'replot'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCustomPlot::RefreshPriority, std::false_type>,
        // method 'replot'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        // method 'processRectSelection'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QRect, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'processRectZoom'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QRect, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'processPointSelection'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>
    >,
    nullptr
} };

void QCustomPlot::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCustomPlot *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->mouseDoubleClick((*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[1]))); break;
        case 1: _t->mousePress((*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[1]))); break;
        case 2: _t->mouseMove((*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[1]))); break;
        case 3: _t->mouseRelease((*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[1]))); break;
        case 4: _t->mouseWheel((*reinterpret_cast< std::add_pointer_t<QWheelEvent*>>(_a[1]))); break;
        case 5: _t->plottableClick((*reinterpret_cast< std::add_pointer_t<QCPAbstractPlottable*>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<int>>(_a[2])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[3]))); break;
        case 6: _t->plottableDoubleClick((*reinterpret_cast< std::add_pointer_t<QCPAbstractPlottable*>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<int>>(_a[2])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[3]))); break;
        case 7: _t->itemClick((*reinterpret_cast< std::add_pointer_t<QCPAbstractItem*>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[2]))); break;
        case 8: _t->itemDoubleClick((*reinterpret_cast< std::add_pointer_t<QCPAbstractItem*>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[2]))); break;
        case 9: _t->axisClick((*reinterpret_cast< std::add_pointer_t<QCPAxis*>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QCPAxis::SelectablePart>>(_a[2])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[3]))); break;
        case 10: _t->axisDoubleClick((*reinterpret_cast< std::add_pointer_t<QCPAxis*>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QCPAxis::SelectablePart>>(_a[2])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[3]))); break;
        case 11: _t->legendClick((*reinterpret_cast< std::add_pointer_t<QCPLegend*>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QCPAbstractLegendItem*>>(_a[2])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[3]))); break;
        case 12: _t->legendDoubleClick((*reinterpret_cast< std::add_pointer_t<QCPLegend*>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QCPAbstractLegendItem*>>(_a[2])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[3]))); break;
        case 13: _t->selectionChangedByUser(); break;
        case 14: _t->beforeReplot(); break;
        case 15: _t->afterLayout(); break;
        case 16: _t->afterReplot(); break;
        case 17: _t->rescaleAxes((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 18: _t->rescaleAxes(); break;
        case 19: _t->deselectAll(); break;
        case 20: _t->replot((*reinterpret_cast< std::add_pointer_t<QCustomPlot::RefreshPriority>>(_a[1]))); break;
        case 21: _t->replot(); break;
        case 22: _t->processRectSelection((*reinterpret_cast< std::add_pointer_t<QRect>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[2]))); break;
        case 23: _t->processRectZoom((*reinterpret_cast< std::add_pointer_t<QRect>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[2]))); break;
        case 24: _t->processPointSelection((*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        switch (_id) {
        default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
        case 5:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAbstractPlottable* >(); break;
            }
            break;
        case 6:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAbstractPlottable* >(); break;
            }
            break;
        case 7:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAbstractItem* >(); break;
            }
            break;
        case 8:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAbstractItem* >(); break;
            }
            break;
        case 9:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis* >(); break;
            case 1:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis::SelectablePart >(); break;
            }
            break;
        case 10:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis* >(); break;
            case 1:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis::SelectablePart >(); break;
            }
            break;
        case 11:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 1:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAbstractLegendItem* >(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPLegend* >(); break;
            }
            break;
        case 12:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 1:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAbstractLegendItem* >(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPLegend* >(); break;
            }
            break;
        case 20:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCustomPlot::RefreshPriority >(); break;
            }
            break;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCustomPlot::*)(QMouseEvent * );
            if (_t _q_method = &QCustomPlot::mouseDoubleClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QMouseEvent * );
            if (_t _q_method = &QCustomPlot::mousePress; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QMouseEvent * );
            if (_t _q_method = &QCustomPlot::mouseMove; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QMouseEvent * );
            if (_t _q_method = &QCustomPlot::mouseRelease; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 3;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QWheelEvent * );
            if (_t _q_method = &QCustomPlot::mouseWheel; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 4;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QCPAbstractPlottable * , int , QMouseEvent * );
            if (_t _q_method = &QCustomPlot::plottableClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 5;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QCPAbstractPlottable * , int , QMouseEvent * );
            if (_t _q_method = &QCustomPlot::plottableDoubleClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 6;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QCPAbstractItem * , QMouseEvent * );
            if (_t _q_method = &QCustomPlot::itemClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 7;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QCPAbstractItem * , QMouseEvent * );
            if (_t _q_method = &QCustomPlot::itemDoubleClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 8;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QCPAxis * , QCPAxis::SelectablePart , QMouseEvent * );
            if (_t _q_method = &QCustomPlot::axisClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 9;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QCPAxis * , QCPAxis::SelectablePart , QMouseEvent * );
            if (_t _q_method = &QCustomPlot::axisDoubleClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 10;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QCPLegend * , QCPAbstractLegendItem * , QMouseEvent * );
            if (_t _q_method = &QCustomPlot::legendClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 11;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)(QCPLegend * , QCPAbstractLegendItem * , QMouseEvent * );
            if (_t _q_method = &QCustomPlot::legendDoubleClick; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 12;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)();
            if (_t _q_method = &QCustomPlot::selectionChangedByUser; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 13;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)();
            if (_t _q_method = &QCustomPlot::beforeReplot; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 14;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)();
            if (_t _q_method = &QCustomPlot::afterLayout; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 15;
                return;
            }
        }
        {
            using _t = void (QCustomPlot::*)();
            if (_t _q_method = &QCustomPlot::afterReplot; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 16;
                return;
            }
        }
    } else if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 4:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPLayoutGrid* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCustomPlot *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QRect*>(_v) = _t->viewport(); break;
        case 1: *reinterpret_cast< QPixmap*>(_v) = _t->background(); break;
        case 2: *reinterpret_cast< bool*>(_v) = _t->backgroundScaled(); break;
        case 3: *reinterpret_cast< Qt::AspectRatioMode*>(_v) = _t->backgroundScaledMode(); break;
        case 4: *reinterpret_cast< QCPLayoutGrid**>(_v) = _t->plotLayout(); break;
        case 5: *reinterpret_cast< bool*>(_v) = _t->autoAddPlottableToLegend(); break;
        case 6: *reinterpret_cast< int*>(_v) = _t->selectionTolerance(); break;
        case 7: *reinterpret_cast< bool*>(_v) = _t->noAntialiasingOnDrag(); break;
        case 8: *reinterpret_cast< Qt::KeyboardModifier*>(_v) = _t->multiSelectModifier(); break;
        case 9: *reinterpret_cast< bool*>(_v) = _t->openGl(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCustomPlot *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setViewport(*reinterpret_cast< QRect*>(_v)); break;
        case 1: _t->setBackground(*reinterpret_cast< QPixmap*>(_v)); break;
        case 2: _t->setBackgroundScaled(*reinterpret_cast< bool*>(_v)); break;
        case 3: _t->setBackgroundScaledMode(*reinterpret_cast< Qt::AspectRatioMode*>(_v)); break;
        case 5: _t->setAutoAddPlottableToLegend(*reinterpret_cast< bool*>(_v)); break;
        case 6: _t->setSelectionTolerance(*reinterpret_cast< int*>(_v)); break;
        case 7: _t->setNoAntialiasingOnDrag(*reinterpret_cast< bool*>(_v)); break;
        case 8: _t->setMultiSelectModifier(*reinterpret_cast< Qt::KeyboardModifier*>(_v)); break;
        case 9: _t->setOpenGl(*reinterpret_cast< bool*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCustomPlot::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCustomPlot::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCustomPlotENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QWidget::qt_metacast(_clname);
}

int QCustomPlot::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QWidget::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 25)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 25;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 25)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 25;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 10;
    }
    return _id;
}

// SIGNAL 0
void QCustomPlot::mouseDoubleClick(QMouseEvent * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCustomPlot::mousePress(QMouseEvent * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCustomPlot::mouseMove(QMouseEvent * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}

// SIGNAL 3
void QCustomPlot::mouseRelease(QMouseEvent * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 3, _a);
}

// SIGNAL 4
void QCustomPlot::mouseWheel(QWheelEvent * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 4, _a);
}

// SIGNAL 5
void QCustomPlot::plottableClick(QCPAbstractPlottable * _t1, int _t2, QMouseEvent * _t3)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t3))) };
    QMetaObject::activate(this, &staticMetaObject, 5, _a);
}

// SIGNAL 6
void QCustomPlot::plottableDoubleClick(QCPAbstractPlottable * _t1, int _t2, QMouseEvent * _t3)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t3))) };
    QMetaObject::activate(this, &staticMetaObject, 6, _a);
}

// SIGNAL 7
void QCustomPlot::itemClick(QCPAbstractItem * _t1, QMouseEvent * _t2)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))) };
    QMetaObject::activate(this, &staticMetaObject, 7, _a);
}

// SIGNAL 8
void QCustomPlot::itemDoubleClick(QCPAbstractItem * _t1, QMouseEvent * _t2)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))) };
    QMetaObject::activate(this, &staticMetaObject, 8, _a);
}

// SIGNAL 9
void QCustomPlot::axisClick(QCPAxis * _t1, QCPAxis::SelectablePart _t2, QMouseEvent * _t3)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t3))) };
    QMetaObject::activate(this, &staticMetaObject, 9, _a);
}

// SIGNAL 10
void QCustomPlot::axisDoubleClick(QCPAxis * _t1, QCPAxis::SelectablePart _t2, QMouseEvent * _t3)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t3))) };
    QMetaObject::activate(this, &staticMetaObject, 10, _a);
}

// SIGNAL 11
void QCustomPlot::legendClick(QCPLegend * _t1, QCPAbstractLegendItem * _t2, QMouseEvent * _t3)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t3))) };
    QMetaObject::activate(this, &staticMetaObject, 11, _a);
}

// SIGNAL 12
void QCustomPlot::legendDoubleClick(QCPLegend * _t1, QCPAbstractLegendItem * _t2, QMouseEvent * _t3)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t3))) };
    QMetaObject::activate(this, &staticMetaObject, 12, _a);
}

// SIGNAL 13
void QCustomPlot::selectionChangedByUser()
{
    QMetaObject::activate(this, &staticMetaObject, 13, nullptr);
}

// SIGNAL 14
void QCustomPlot::beforeReplot()
{
    QMetaObject::activate(this, &staticMetaObject, 14, nullptr);
}

// SIGNAL 15
void QCustomPlot::afterLayout()
{
    QMetaObject::activate(this, &staticMetaObject, 15, nullptr);
}

// SIGNAL 16
void QCustomPlot::afterReplot()
{
    QMetaObject::activate(this, &staticMetaObject, 16, nullptr);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPColorGradientENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPColorGradientENDCLASS = QtMocHelpers::stringData(
    "QCPColorGradient",
    "ColorInterpolation",
    "ciRGB",
    "ciHSV",
    "NanHandling",
    "nhNone",
    "nhLowestColor",
    "nhHighestColor",
    "nhTransparent",
    "nhNanColor",
    "GradientPreset",
    "gpGrayscale",
    "gpHot",
    "gpCold",
    "gpNight",
    "gpCandy",
    "gpGeography",
    "gpIon",
    "gpThermal",
    "gpPolar",
    "gpSpectrum",
    "gpJet",
    "gpHues"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPColorGradientENDCLASS_t {
    uint offsetsAndSizes[46];
    char stringdata0[17];
    char stringdata1[19];
    char stringdata2[6];
    char stringdata3[6];
    char stringdata4[12];
    char stringdata5[7];
    char stringdata6[14];
    char stringdata7[15];
    char stringdata8[14];
    char stringdata9[11];
    char stringdata10[15];
    char stringdata11[12];
    char stringdata12[6];
    char stringdata13[7];
    char stringdata14[8];
    char stringdata15[8];
    char stringdata16[12];
    char stringdata17[6];
    char stringdata18[10];
    char stringdata19[8];
    char stringdata20[11];
    char stringdata21[6];
    char stringdata22[7];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPColorGradientENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPColorGradientENDCLASS_t qt_meta_stringdata_CLASSQCPColorGradientENDCLASS = {
    {
        QT_MOC_LITERAL(0, 16),  // "QCPColorGradient"
        QT_MOC_LITERAL(17, 18),  // "ColorInterpolation"
        QT_MOC_LITERAL(36, 5),  // "ciRGB"
        QT_MOC_LITERAL(42, 5),  // "ciHSV"
        QT_MOC_LITERAL(48, 11),  // "NanHandling"
        QT_MOC_LITERAL(60, 6),  // "nhNone"
        QT_MOC_LITERAL(67, 13),  // "nhLowestColor"
        QT_MOC_LITERAL(81, 14),  // "nhHighestColor"
        QT_MOC_LITERAL(96, 13),  // "nhTransparent"
        QT_MOC_LITERAL(110, 10),  // "nhNanColor"
        QT_MOC_LITERAL(121, 14),  // "GradientPreset"
        QT_MOC_LITERAL(136, 11),  // "gpGrayscale"
        QT_MOC_LITERAL(148, 5),  // "gpHot"
        QT_MOC_LITERAL(154, 6),  // "gpCold"
        QT_MOC_LITERAL(161, 7),  // "gpNight"
        QT_MOC_LITERAL(169, 7),  // "gpCandy"
        QT_MOC_LITERAL(177, 11),  // "gpGeography"
        QT_MOC_LITERAL(189, 5),  // "gpIon"
        QT_MOC_LITERAL(195, 9),  // "gpThermal"
        QT_MOC_LITERAL(205, 7),  // "gpPolar"
        QT_MOC_LITERAL(213, 10),  // "gpSpectrum"
        QT_MOC_LITERAL(224, 5),  // "gpJet"
        QT_MOC_LITERAL(230, 6)   // "gpHues"
    },
    "QCPColorGradient",
    "ColorInterpolation",
    "ciRGB",
    "ciHSV",
    "NanHandling",
    "nhNone",
    "nhLowestColor",
    "nhHighestColor",
    "nhTransparent",
    "nhNanColor",
    "GradientPreset",
    "gpGrayscale",
    "gpHot",
    "gpCold",
    "gpNight",
    "gpCandy",
    "gpGeography",
    "gpIon",
    "gpThermal",
    "gpPolar",
    "gpSpectrum",
    "gpJet",
    "gpHues"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPColorGradientENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       3,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    2,   29,
       4,    4, 0x0,    5,   33,
      10,   10, 0x0,   12,   43,

 // enum data: key, value
       2, uint(QCPColorGradient::ciRGB),
       3, uint(QCPColorGradient::ciHSV),
       5, uint(QCPColorGradient::nhNone),
       6, uint(QCPColorGradient::nhLowestColor),
       7, uint(QCPColorGradient::nhHighestColor),
       8, uint(QCPColorGradient::nhTransparent),
       9, uint(QCPColorGradient::nhNanColor),
      11, uint(QCPColorGradient::gpGrayscale),
      12, uint(QCPColorGradient::gpHot),
      13, uint(QCPColorGradient::gpCold),
      14, uint(QCPColorGradient::gpNight),
      15, uint(QCPColorGradient::gpCandy),
      16, uint(QCPColorGradient::gpGeography),
      17, uint(QCPColorGradient::gpIon),
      18, uint(QCPColorGradient::gpThermal),
      19, uint(QCPColorGradient::gpPolar),
      20, uint(QCPColorGradient::gpSpectrum),
      21, uint(QCPColorGradient::gpJet),
      22, uint(QCPColorGradient::gpHues),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPColorGradient::staticMetaObject = { {
    nullptr,
    qt_meta_stringdata_CLASSQCPColorGradientENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPColorGradientENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPColorGradientENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPColorGradient, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPSelectionDecoratorBracketENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPSelectionDecoratorBracketENDCLASS = QtMocHelpers::stringData(
    "QCPSelectionDecoratorBracket",
    "BracketStyle",
    "bsSquareBracket",
    "bsHalfEllipse",
    "bsEllipse",
    "bsPlus",
    "bsUserStyle"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPSelectionDecoratorBracketENDCLASS_t {
    uint offsetsAndSizes[14];
    char stringdata0[29];
    char stringdata1[13];
    char stringdata2[16];
    char stringdata3[14];
    char stringdata4[10];
    char stringdata5[7];
    char stringdata6[12];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPSelectionDecoratorBracketENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPSelectionDecoratorBracketENDCLASS_t qt_meta_stringdata_CLASSQCPSelectionDecoratorBracketENDCLASS = {
    {
        QT_MOC_LITERAL(0, 28),  // "QCPSelectionDecoratorBracket"
        QT_MOC_LITERAL(29, 12),  // "BracketStyle"
        QT_MOC_LITERAL(42, 15),  // "bsSquareBracket"
        QT_MOC_LITERAL(58, 13),  // "bsHalfEllipse"
        QT_MOC_LITERAL(72, 9),  // "bsEllipse"
        QT_MOC_LITERAL(82, 6),  // "bsPlus"
        QT_MOC_LITERAL(89, 11)   // "bsUserStyle"
    },
    "QCPSelectionDecoratorBracket",
    "BracketStyle",
    "bsSquareBracket",
    "bsHalfEllipse",
    "bsEllipse",
    "bsPlus",
    "bsUserStyle"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPSelectionDecoratorBracketENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       1,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    5,   19,

 // enum data: key, value
       2, uint(QCPSelectionDecoratorBracket::bsSquareBracket),
       3, uint(QCPSelectionDecoratorBracket::bsHalfEllipse),
       4, uint(QCPSelectionDecoratorBracket::bsEllipse),
       5, uint(QCPSelectionDecoratorBracket::bsPlus),
       6, uint(QCPSelectionDecoratorBracket::bsUserStyle),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPSelectionDecoratorBracket::staticMetaObject = { {
    QtPrivate::MetaObjectForType<QCPSelectionDecorator>::value,
    qt_meta_stringdata_CLASSQCPSelectionDecoratorBracketENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPSelectionDecoratorBracketENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPSelectionDecoratorBracketENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPSelectionDecoratorBracket, std::true_type>
    >,
    nullptr
} };

namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAxisRectENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAxisRectENDCLASS = QtMocHelpers::stringData(
    "QCPAxisRect",
    "background",
    "backgroundScaled",
    "backgroundScaledMode",
    "Qt::AspectRatioMode",
    "rangeDrag",
    "Qt::Orientations",
    "rangeZoom"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAxisRectENDCLASS_t {
    uint offsetsAndSizes[16];
    char stringdata0[12];
    char stringdata1[11];
    char stringdata2[17];
    char stringdata3[21];
    char stringdata4[20];
    char stringdata5[10];
    char stringdata6[17];
    char stringdata7[10];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAxisRectENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAxisRectENDCLASS_t qt_meta_stringdata_CLASSQCPAxisRectENDCLASS = {
    {
        QT_MOC_LITERAL(0, 11),  // "QCPAxisRect"
        QT_MOC_LITERAL(12, 10),  // "background"
        QT_MOC_LITERAL(23, 16),  // "backgroundScaled"
        QT_MOC_LITERAL(40, 20),  // "backgroundScaledMode"
        QT_MOC_LITERAL(61, 19),  // "Qt::AspectRatioMode"
        QT_MOC_LITERAL(81, 9),  // "rangeDrag"
        QT_MOC_LITERAL(91, 16),  // "Qt::Orientations"
        QT_MOC_LITERAL(108, 9)   // "rangeZoom"
    },
    "QCPAxisRect",
    "background",
    "backgroundScaled",
    "backgroundScaledMode",
    "Qt::AspectRatioMode",
    "rangeDrag",
    "Qt::Orientations",
    "rangeZoom"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAxisRectENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       5,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPixmap, 0x00015103, uint(-1), 0,
       2, QMetaType::Bool, 0x00015103, uint(-1), 0,
       3, 0x80000000 | 4, 0x0001510b, uint(-1), 0,
       5, 0x80000000 | 6, 0x0001510b, uint(-1), 0,
       7, 0x80000000 | 6, 0x0001510b, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPAxisRect::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayoutElement::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPAxisRectENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAxisRectENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAxisRectENDCLASS_t,
        // property 'background'
        QtPrivate::TypeAndForceComplete<QPixmap, std::true_type>,
        // property 'backgroundScaled'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'backgroundScaledMode'
        QtPrivate::TypeAndForceComplete<Qt::AspectRatioMode, std::true_type>,
        // property 'rangeDrag'
        QtPrivate::TypeAndForceComplete<Qt::Orientations, std::true_type>,
        // property 'rangeZoom'
        QtPrivate::TypeAndForceComplete<Qt::Orientations, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAxisRect, std::true_type>
    >,
    nullptr
} };

void QCPAxisRect::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPAxisRect *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPixmap*>(_v) = _t->background(); break;
        case 1: *reinterpret_cast< bool*>(_v) = _t->backgroundScaled(); break;
        case 2: *reinterpret_cast< Qt::AspectRatioMode*>(_v) = _t->backgroundScaledMode(); break;
        case 3: *reinterpret_cast< Qt::Orientations*>(_v) = _t->rangeDrag(); break;
        case 4: *reinterpret_cast< Qt::Orientations*>(_v) = _t->rangeZoom(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPAxisRect *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setBackground(*reinterpret_cast< QPixmap*>(_v)); break;
        case 1: _t->setBackgroundScaled(*reinterpret_cast< bool*>(_v)); break;
        case 2: _t->setBackgroundScaledMode(*reinterpret_cast< Qt::AspectRatioMode*>(_v)); break;
        case 3: _t->setRangeDrag(*reinterpret_cast< Qt::Orientations*>(_v)); break;
        case 4: _t->setRangeZoom(*reinterpret_cast< Qt::Orientations*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPAxisRect::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPAxisRect::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPAxisRectENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayoutElement::qt_metacast(_clname);
}

int QCPAxisRect::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayoutElement::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS = QtMocHelpers::stringData(
    "QCPAbstractLegendItem",
    "selectionChanged",
    "",
    "selected",
    "selectableChanged",
    "selectable",
    "setSelectable",
    "setSelected",
    "parentLegend",
    "QCPLegend*",
    "font",
    "textColor",
    "selectedFont",
    "selectedTextColor"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS_t {
    uint offsetsAndSizes[28];
    char stringdata0[22];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[18];
    char stringdata5[11];
    char stringdata6[14];
    char stringdata7[12];
    char stringdata8[13];
    char stringdata9[11];
    char stringdata10[5];
    char stringdata11[10];
    char stringdata12[13];
    char stringdata13[18];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS_t qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS = {
    {
        QT_MOC_LITERAL(0, 21),  // "QCPAbstractLegendItem"
        QT_MOC_LITERAL(22, 16),  // "selectionChanged"
        QT_MOC_LITERAL(39, 0),  // ""
        QT_MOC_LITERAL(40, 8),  // "selected"
        QT_MOC_LITERAL(49, 17),  // "selectableChanged"
        QT_MOC_LITERAL(67, 10),  // "selectable"
        QT_MOC_LITERAL(78, 13),  // "setSelectable"
        QT_MOC_LITERAL(92, 11),  // "setSelected"
        QT_MOC_LITERAL(104, 12),  // "parentLegend"
        QT_MOC_LITERAL(117, 10),  // "QCPLegend*"
        QT_MOC_LITERAL(128, 4),  // "font"
        QT_MOC_LITERAL(133, 9),  // "textColor"
        QT_MOC_LITERAL(143, 12),  // "selectedFont"
        QT_MOC_LITERAL(156, 17)   // "selectedTextColor"
    },
    "QCPAbstractLegendItem",
    "selectionChanged",
    "",
    "selected",
    "selectableChanged",
    "selectable",
    "setSelectable",
    "setSelected",
    "parentLegend",
    "QCPLegend*",
    "font",
    "textColor",
    "selectedFont",
    "selectedTextColor"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPAbstractLegendItemENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       4,   14, // methods
       7,   50, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       2,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   38,    2, 0x06,    8 /* Public */,
       4,    1,   41,    2, 0x06,   10 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
       6,    1,   44,    2, 0x0a,   12 /* Public */,
       7,    1,   47,    2, 0x0a,   14 /* Public */,

 // signals: parameters
    QMetaType::Void, QMetaType::Bool,    3,
    QMetaType::Void, QMetaType::Bool,    5,

 // slots: parameters
    QMetaType::Void, QMetaType::Bool,    5,
    QMetaType::Void, QMetaType::Bool,    3,

 // properties: name, type, flags
       8, 0x80000000 | 9, 0x00015009, uint(-1), 0,
      10, QMetaType::QFont, 0x00015103, uint(-1), 0,
      11, QMetaType::QColor, 0x00015103, uint(-1), 0,
      12, QMetaType::QFont, 0x00015103, uint(-1), 0,
      13, QMetaType::QColor, 0x00015103, uint(-1), 0,
       5, QMetaType::Bool, 0x00015103, uint(0), 0,
       3, QMetaType::Bool, 0x00015103, uint(1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPAbstractLegendItem::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayoutElement::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPAbstractLegendItemENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS_t,
        // property 'parentLegend'
        QtPrivate::TypeAndForceComplete<QCPLegend*, std::true_type>,
        // property 'font'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'textColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'selectedFont'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'selectedTextColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'selectable'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'selected'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPAbstractLegendItem, std::true_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'setSelectable'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'setSelected'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>
    >,
    nullptr
} };

void QCPAbstractLegendItem::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPAbstractLegendItem *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 1: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 2: _t->setSelectable((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 3: _t->setSelected((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPAbstractLegendItem::*)(bool );
            if (_t _q_method = &QCPAbstractLegendItem::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPAbstractLegendItem::*)(bool );
            if (_t _q_method = &QCPAbstractLegendItem::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
    } else if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 0:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPLegend* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPAbstractLegendItem *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QCPLegend**>(_v) = _t->parentLegend(); break;
        case 1: *reinterpret_cast< QFont*>(_v) = _t->font(); break;
        case 2: *reinterpret_cast< QColor*>(_v) = _t->textColor(); break;
        case 3: *reinterpret_cast< QFont*>(_v) = _t->selectedFont(); break;
        case 4: *reinterpret_cast< QColor*>(_v) = _t->selectedTextColor(); break;
        case 5: *reinterpret_cast< bool*>(_v) = _t->selectable(); break;
        case 6: *reinterpret_cast< bool*>(_v) = _t->selected(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPAbstractLegendItem *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 1: _t->setFont(*reinterpret_cast< QFont*>(_v)); break;
        case 2: _t->setTextColor(*reinterpret_cast< QColor*>(_v)); break;
        case 3: _t->setSelectedFont(*reinterpret_cast< QFont*>(_v)); break;
        case 4: _t->setSelectedTextColor(*reinterpret_cast< QColor*>(_v)); break;
        case 5: _t->setSelectable(*reinterpret_cast< bool*>(_v)); break;
        case 6: _t->setSelected(*reinterpret_cast< bool*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPAbstractLegendItem::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPAbstractLegendItem::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPAbstractLegendItemENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayoutElement::qt_metacast(_clname);
}

int QCPAbstractLegendItem::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayoutElement::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 4)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 4)
            *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType();
        _id -= 4;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 7;
    }
    return _id;
}

// SIGNAL 0
void QCPAbstractLegendItem::selectionChanged(bool _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPAbstractLegendItem::selectableChanged(bool _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS = QtMocHelpers::stringData(
    "QCPPlottableLegendItem"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS_t {
    uint offsetsAndSizes[2];
    char stringdata0[23];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS_t qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS = {
    {
        QT_MOC_LITERAL(0, 22)   // "QCPPlottableLegendItem"
    },
    "QCPPlottableLegendItem"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPPlottableLegendItemENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPPlottableLegendItem::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractLegendItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPPlottableLegendItemENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPPlottableLegendItem, std::true_type>
    >,
    nullptr
} };

void QCPPlottableLegendItem::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPPlottableLegendItem::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPPlottableLegendItem::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPPlottableLegendItemENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractLegendItem::qt_metacast(_clname);
}

int QCPPlottableLegendItem::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractLegendItem::qt_metacall(_c, _id, _a);
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPLegendENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPLegendENDCLASS = QtMocHelpers::stringData(
    "QCPLegend",
    "selectionChanged",
    "",
    "QCPLegend::SelectableParts",
    "parts",
    "selectableChanged",
    "setSelectableParts",
    "SelectableParts",
    "selectableParts",
    "setSelectedParts",
    "selectedParts",
    "borderPen",
    "brush",
    "font",
    "textColor",
    "iconSize",
    "iconTextPadding",
    "iconBorderPen",
    "selectedBorderPen",
    "selectedIconBorderPen",
    "selectedBrush",
    "selectedFont",
    "selectedTextColor",
    "SelectablePart",
    "spNone",
    "spLegendBox",
    "spItems"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPLegendENDCLASS_t {
    uint offsetsAndSizes[54];
    char stringdata0[10];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[27];
    char stringdata4[6];
    char stringdata5[18];
    char stringdata6[19];
    char stringdata7[16];
    char stringdata8[16];
    char stringdata9[17];
    char stringdata10[14];
    char stringdata11[10];
    char stringdata12[6];
    char stringdata13[5];
    char stringdata14[10];
    char stringdata15[9];
    char stringdata16[16];
    char stringdata17[14];
    char stringdata18[18];
    char stringdata19[22];
    char stringdata20[14];
    char stringdata21[13];
    char stringdata22[18];
    char stringdata23[15];
    char stringdata24[7];
    char stringdata25[12];
    char stringdata26[8];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPLegendENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPLegendENDCLASS_t qt_meta_stringdata_CLASSQCPLegendENDCLASS = {
    {
        QT_MOC_LITERAL(0, 9),  // "QCPLegend"
        QT_MOC_LITERAL(10, 16),  // "selectionChanged"
        QT_MOC_LITERAL(27, 0),  // ""
        QT_MOC_LITERAL(28, 26),  // "QCPLegend::SelectableParts"
        QT_MOC_LITERAL(55, 5),  // "parts"
        QT_MOC_LITERAL(61, 17),  // "selectableChanged"
        QT_MOC_LITERAL(79, 18),  // "setSelectableParts"
        QT_MOC_LITERAL(98, 15),  // "SelectableParts"
        QT_MOC_LITERAL(114, 15),  // "selectableParts"
        QT_MOC_LITERAL(130, 16),  // "setSelectedParts"
        QT_MOC_LITERAL(147, 13),  // "selectedParts"
        QT_MOC_LITERAL(161, 9),  // "borderPen"
        QT_MOC_LITERAL(171, 5),  // "brush"
        QT_MOC_LITERAL(177, 4),  // "font"
        QT_MOC_LITERAL(182, 9),  // "textColor"
        QT_MOC_LITERAL(192, 8),  // "iconSize"
        QT_MOC_LITERAL(201, 15),  // "iconTextPadding"
        QT_MOC_LITERAL(217, 13),  // "iconBorderPen"
        QT_MOC_LITERAL(231, 17),  // "selectedBorderPen"
        QT_MOC_LITERAL(249, 21),  // "selectedIconBorderPen"
        QT_MOC_LITERAL(271, 13),  // "selectedBrush"
        QT_MOC_LITERAL(285, 12),  // "selectedFont"
        QT_MOC_LITERAL(298, 17),  // "selectedTextColor"
        QT_MOC_LITERAL(316, 14),  // "SelectablePart"
        QT_MOC_LITERAL(331, 6),  // "spNone"
        QT_MOC_LITERAL(338, 11),  // "spLegendBox"
        QT_MOC_LITERAL(350, 7)   // "spItems"
    },
    "QCPLegend",
    "selectionChanged",
    "",
    "QCPLegend::SelectableParts",
    "parts",
    "selectableChanged",
    "setSelectableParts",
    "SelectableParts",
    "selectableParts",
    "setSelectedParts",
    "selectedParts",
    "borderPen",
    "brush",
    "font",
    "textColor",
    "iconSize",
    "iconTextPadding",
    "iconBorderPen",
    "selectedBorderPen",
    "selectedIconBorderPen",
    "selectedBrush",
    "selectedFont",
    "selectedTextColor",
    "SelectablePart",
    "spNone",
    "spLegendBox",
    "spItems"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPLegendENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       4,   14, // methods
      14,   50, // properties
       2,  120, // enums/sets
       0,    0, // constructors
       0,       // flags
       2,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   38,    2, 0x06,   15 /* Public */,
       5,    1,   41,    2, 0x06,   17 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
       6,    1,   44,    2, 0x0a,   19 /* Public */,
       9,    1,   47,    2, 0x0a,   21 /* Public */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 3,    4,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 7,    8,
    QMetaType::Void, 0x80000000 | 7,   10,

 // properties: name, type, flags
      11, QMetaType::QPen, 0x00015103, uint(-1), 0,
      12, QMetaType::QBrush, 0x00015103, uint(-1), 0,
      13, QMetaType::QFont, 0x00015103, uint(-1), 0,
      14, QMetaType::QColor, 0x00015103, uint(-1), 0,
      15, QMetaType::QSize, 0x00015103, uint(-1), 0,
      16, QMetaType::Int, 0x00015103, uint(-1), 0,
      17, QMetaType::QPen, 0x00015103, uint(-1), 0,
       8, 0x80000000 | 7, 0x0001510b, uint(0), 0,
      10, 0x80000000 | 7, 0x0001510b, uint(1), 0,
      18, QMetaType::QPen, 0x00015103, uint(-1), 0,
      19, QMetaType::QPen, 0x00015103, uint(-1), 0,
      20, QMetaType::QBrush, 0x00015103, uint(-1), 0,
      21, QMetaType::QFont, 0x00015103, uint(-1), 0,
      22, QMetaType::QColor, 0x00015103, uint(-1), 0,

 // enums: name, alias, flags, count, data
      23,   23, 0x0,    3,  130,
       7,   23, 0x1,    3,  136,

 // enum data: key, value
      24, uint(QCPLegend::spNone),
      25, uint(QCPLegend::spLegendBox),
      26, uint(QCPLegend::spItems),
      24, uint(QCPLegend::spNone),
      25, uint(QCPLegend::spLegendBox),
      26, uint(QCPLegend::spItems),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPLegend::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayoutGrid::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPLegendENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPLegendENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPLegendENDCLASS_t,
        // property 'borderPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'brush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'font'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'textColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'iconSize'
        QtPrivate::TypeAndForceComplete<QSize, std::true_type>,
        // property 'iconTextPadding'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'iconBorderPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectableParts'
        QtPrivate::TypeAndForceComplete<SelectableParts, std::true_type>,
        // property 'selectedParts'
        QtPrivate::TypeAndForceComplete<SelectableParts, std::true_type>,
        // property 'selectedBorderPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedIconBorderPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedBrush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'selectedFont'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'selectedTextColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPLegend, std::true_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPLegend::SelectableParts, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPLegend::SelectableParts, std::false_type>,
        // method 'setSelectableParts'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const SelectableParts &, std::false_type>,
        // method 'setSelectedParts'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const SelectableParts &, std::false_type>
    >,
    nullptr
} };

void QCPLegend::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPLegend *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<QCPLegend::SelectableParts>>(_a[1]))); break;
        case 1: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<QCPLegend::SelectableParts>>(_a[1]))); break;
        case 2: _t->setSelectableParts((*reinterpret_cast< std::add_pointer_t<SelectableParts>>(_a[1]))); break;
        case 3: _t->setSelectedParts((*reinterpret_cast< std::add_pointer_t<SelectableParts>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPLegend::*)(QCPLegend::SelectableParts );
            if (_t _q_method = &QCPLegend::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPLegend::*)(QCPLegend::SelectableParts );
            if (_t _q_method = &QCPLegend::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
    }else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPLegend *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPen*>(_v) = _t->borderPen(); break;
        case 1: *reinterpret_cast< QBrush*>(_v) = _t->brush(); break;
        case 2: *reinterpret_cast< QFont*>(_v) = _t->font(); break;
        case 3: *reinterpret_cast< QColor*>(_v) = _t->textColor(); break;
        case 4: *reinterpret_cast< QSize*>(_v) = _t->iconSize(); break;
        case 5: *reinterpret_cast< int*>(_v) = _t->iconTextPadding(); break;
        case 6: *reinterpret_cast< QPen*>(_v) = _t->iconBorderPen(); break;
        case 7: *reinterpret_cast<int*>(_v) = QFlag(_t->selectableParts()); break;
        case 8: *reinterpret_cast<int*>(_v) = QFlag(_t->selectedParts()); break;
        case 9: *reinterpret_cast< QPen*>(_v) = _t->selectedBorderPen(); break;
        case 10: *reinterpret_cast< QPen*>(_v) = _t->selectedIconBorderPen(); break;
        case 11: *reinterpret_cast< QBrush*>(_v) = _t->selectedBrush(); break;
        case 12: *reinterpret_cast< QFont*>(_v) = _t->selectedFont(); break;
        case 13: *reinterpret_cast< QColor*>(_v) = _t->selectedTextColor(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPLegend *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setBorderPen(*reinterpret_cast< QPen*>(_v)); break;
        case 1: _t->setBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 2: _t->setFont(*reinterpret_cast< QFont*>(_v)); break;
        case 3: _t->setTextColor(*reinterpret_cast< QColor*>(_v)); break;
        case 4: _t->setIconSize(*reinterpret_cast< QSize*>(_v)); break;
        case 5: _t->setIconTextPadding(*reinterpret_cast< int*>(_v)); break;
        case 6: _t->setIconBorderPen(*reinterpret_cast< QPen*>(_v)); break;
        case 7: _t->setSelectableParts(QFlag(*reinterpret_cast<int*>(_v))); break;
        case 8: _t->setSelectedParts(QFlag(*reinterpret_cast<int*>(_v))); break;
        case 9: _t->setSelectedBorderPen(*reinterpret_cast< QPen*>(_v)); break;
        case 10: _t->setSelectedIconBorderPen(*reinterpret_cast< QPen*>(_v)); break;
        case 11: _t->setSelectedBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 12: _t->setSelectedFont(*reinterpret_cast< QFont*>(_v)); break;
        case 13: _t->setSelectedTextColor(*reinterpret_cast< QColor*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPLegend::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPLegend::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPLegendENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayoutGrid::qt_metacast(_clname);
}

int QCPLegend::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayoutGrid::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 4)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 4)
            *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType();
        _id -= 4;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 14;
    }
    return _id;
}

// SIGNAL 0
void QCPLegend::selectionChanged(QCPLegend::SelectableParts _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPLegend::selectableChanged(QCPLegend::SelectableParts _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPTextElementENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPTextElementENDCLASS = QtMocHelpers::stringData(
    "QCPTextElement",
    "selectionChanged",
    "",
    "selected",
    "selectableChanged",
    "selectable",
    "clicked",
    "QMouseEvent*",
    "event",
    "doubleClicked",
    "setSelectable",
    "setSelected",
    "text",
    "font",
    "textColor",
    "selectedFont",
    "selectedTextColor"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPTextElementENDCLASS_t {
    uint offsetsAndSizes[34];
    char stringdata0[15];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[18];
    char stringdata5[11];
    char stringdata6[8];
    char stringdata7[13];
    char stringdata8[6];
    char stringdata9[14];
    char stringdata10[14];
    char stringdata11[12];
    char stringdata12[5];
    char stringdata13[5];
    char stringdata14[10];
    char stringdata15[13];
    char stringdata16[18];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPTextElementENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPTextElementENDCLASS_t qt_meta_stringdata_CLASSQCPTextElementENDCLASS = {
    {
        QT_MOC_LITERAL(0, 14),  // "QCPTextElement"
        QT_MOC_LITERAL(15, 16),  // "selectionChanged"
        QT_MOC_LITERAL(32, 0),  // ""
        QT_MOC_LITERAL(33, 8),  // "selected"
        QT_MOC_LITERAL(42, 17),  // "selectableChanged"
        QT_MOC_LITERAL(60, 10),  // "selectable"
        QT_MOC_LITERAL(71, 7),  // "clicked"
        QT_MOC_LITERAL(79, 12),  // "QMouseEvent*"
        QT_MOC_LITERAL(92, 5),  // "event"
        QT_MOC_LITERAL(98, 13),  // "doubleClicked"
        QT_MOC_LITERAL(112, 13),  // "setSelectable"
        QT_MOC_LITERAL(126, 11),  // "setSelected"
        QT_MOC_LITERAL(138, 4),  // "text"
        QT_MOC_LITERAL(143, 4),  // "font"
        QT_MOC_LITERAL(148, 9),  // "textColor"
        QT_MOC_LITERAL(158, 12),  // "selectedFont"
        QT_MOC_LITERAL(171, 17)   // "selectedTextColor"
    },
    "QCPTextElement",
    "selectionChanged",
    "",
    "selected",
    "selectableChanged",
    "selectable",
    "clicked",
    "QMouseEvent*",
    "event",
    "doubleClicked",
    "setSelectable",
    "setSelected",
    "text",
    "font",
    "textColor",
    "selectedFont",
    "selectedTextColor"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPTextElementENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       6,   14, // methods
       7,   68, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       4,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   50,    2, 0x06,    8 /* Public */,
       4,    1,   53,    2, 0x06,   10 /* Public */,
       6,    1,   56,    2, 0x06,   12 /* Public */,
       9,    1,   59,    2, 0x06,   14 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
      10,    1,   62,    2, 0x0a,   16 /* Public */,
      11,    1,   65,    2, 0x0a,   18 /* Public */,

 // signals: parameters
    QMetaType::Void, QMetaType::Bool,    3,
    QMetaType::Void, QMetaType::Bool,    5,
    QMetaType::Void, 0x80000000 | 7,    8,
    QMetaType::Void, 0x80000000 | 7,    8,

 // slots: parameters
    QMetaType::Void, QMetaType::Bool,    5,
    QMetaType::Void, QMetaType::Bool,    3,

 // properties: name, type, flags
      12, QMetaType::QString, 0x00015103, uint(-1), 0,
      13, QMetaType::QFont, 0x00015103, uint(-1), 0,
      14, QMetaType::QColor, 0x00015103, uint(-1), 0,
      15, QMetaType::QFont, 0x00015103, uint(-1), 0,
      16, QMetaType::QColor, 0x00015103, uint(-1), 0,
       5, QMetaType::Bool, 0x00015103, uint(1), 0,
       3, QMetaType::Bool, 0x00015103, uint(0), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPTextElement::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayoutElement::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPTextElementENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPTextElementENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPTextElementENDCLASS_t,
        // property 'text'
        QtPrivate::TypeAndForceComplete<QString, std::true_type>,
        // property 'font'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'textColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'selectedFont'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'selectedTextColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'selectable'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'selected'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPTextElement, std::true_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'clicked'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'doubleClicked'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QMouseEvent *, std::false_type>,
        // method 'setSelectable'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'setSelected'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>
    >,
    nullptr
} };

void QCPTextElement::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPTextElement *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 1: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 2: _t->clicked((*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[1]))); break;
        case 3: _t->doubleClicked((*reinterpret_cast< std::add_pointer_t<QMouseEvent*>>(_a[1]))); break;
        case 4: _t->setSelectable((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 5: _t->setSelected((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPTextElement::*)(bool );
            if (_t _q_method = &QCPTextElement::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPTextElement::*)(bool );
            if (_t _q_method = &QCPTextElement::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPTextElement::*)(QMouseEvent * );
            if (_t _q_method = &QCPTextElement::clicked; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
        {
            using _t = void (QCPTextElement::*)(QMouseEvent * );
            if (_t _q_method = &QCPTextElement::doubleClicked; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 3;
                return;
            }
        }
    }else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPTextElement *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QString*>(_v) = _t->text(); break;
        case 1: *reinterpret_cast< QFont*>(_v) = _t->font(); break;
        case 2: *reinterpret_cast< QColor*>(_v) = _t->textColor(); break;
        case 3: *reinterpret_cast< QFont*>(_v) = _t->selectedFont(); break;
        case 4: *reinterpret_cast< QColor*>(_v) = _t->selectedTextColor(); break;
        case 5: *reinterpret_cast< bool*>(_v) = _t->selectable(); break;
        case 6: *reinterpret_cast< bool*>(_v) = _t->selected(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPTextElement *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setText(*reinterpret_cast< QString*>(_v)); break;
        case 1: _t->setFont(*reinterpret_cast< QFont*>(_v)); break;
        case 2: _t->setTextColor(*reinterpret_cast< QColor*>(_v)); break;
        case 3: _t->setSelectedFont(*reinterpret_cast< QFont*>(_v)); break;
        case 4: _t->setSelectedTextColor(*reinterpret_cast< QColor*>(_v)); break;
        case 5: _t->setSelectable(*reinterpret_cast< bool*>(_v)); break;
        case 6: _t->setSelected(*reinterpret_cast< bool*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPTextElement::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPTextElement::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPTextElementENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayoutElement::qt_metacast(_clname);
}

int QCPTextElement::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayoutElement::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 6)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 6;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 6)
            *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType();
        _id -= 6;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 7;
    }
    return _id;
}

// SIGNAL 0
void QCPTextElement::selectionChanged(bool _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPTextElement::selectableChanged(bool _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPTextElement::clicked(QMouseEvent * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}

// SIGNAL 3
void QCPTextElement::doubleClicked(QMouseEvent * _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 3, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS = QtMocHelpers::stringData(
    "QCPColorScaleAxisRectPrivate",
    "axisSelectionChanged",
    "",
    "QCPAxis::SelectableParts",
    "selectedParts",
    "axisSelectableChanged",
    "selectableParts"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS_t {
    uint offsetsAndSizes[14];
    char stringdata0[29];
    char stringdata1[21];
    char stringdata2[1];
    char stringdata3[25];
    char stringdata4[14];
    char stringdata5[22];
    char stringdata6[16];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS_t qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS = {
    {
        QT_MOC_LITERAL(0, 28),  // "QCPColorScaleAxisRectPrivate"
        QT_MOC_LITERAL(29, 20),  // "axisSelectionChanged"
        QT_MOC_LITERAL(50, 0),  // ""
        QT_MOC_LITERAL(51, 24),  // "QCPAxis::SelectableParts"
        QT_MOC_LITERAL(76, 13),  // "selectedParts"
        QT_MOC_LITERAL(90, 21),  // "axisSelectableChanged"
        QT_MOC_LITERAL(112, 15)   // "selectableParts"
    },
    "QCPColorScaleAxisRectPrivate",
    "axisSelectionChanged",
    "",
    "QCPAxis::SelectableParts",
    "selectedParts",
    "axisSelectableChanged",
    "selectableParts"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPColorScaleAxisRectPrivateENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       2,   14, // methods
       0,    0, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   26,    2, 0x09,    1 /* Protected */,
       5,    1,   29,    2, 0x09,    3 /* Protected */,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 3,    6,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPColorScaleAxisRectPrivate::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAxisRect::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPColorScaleAxisRectPrivateENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPColorScaleAxisRectPrivate, std::true_type>,
        // method 'axisSelectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::SelectableParts, std::false_type>,
        // method 'axisSelectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::SelectableParts, std::false_type>
    >,
    nullptr
} };

void QCPColorScaleAxisRectPrivate::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPColorScaleAxisRectPrivate *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->axisSelectionChanged((*reinterpret_cast< std::add_pointer_t<QCPAxis::SelectableParts>>(_a[1]))); break;
        case 1: _t->axisSelectableChanged((*reinterpret_cast< std::add_pointer_t<QCPAxis::SelectableParts>>(_a[1]))); break;
        default: ;
        }
    }
}

const QMetaObject *QCPColorScaleAxisRectPrivate::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPColorScaleAxisRectPrivate::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPColorScaleAxisRectPrivateENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAxisRect::qt_metacast(_clname);
}

int QCPColorScaleAxisRectPrivate::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAxisRect::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 2)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 2;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 2)
            *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType();
        _id -= 2;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPColorScaleENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPColorScaleENDCLASS = QtMocHelpers::stringData(
    "QCPColorScale",
    "dataRangeChanged",
    "",
    "QCPRange",
    "newRange",
    "dataScaleTypeChanged",
    "QCPAxis::ScaleType",
    "scaleType",
    "gradientChanged",
    "QCPColorGradient",
    "newGradient",
    "setDataRange",
    "dataRange",
    "setDataScaleType",
    "setGradient",
    "gradient",
    "type",
    "QCPAxis::AxisType",
    "dataScaleType",
    "label",
    "barWidth",
    "rangeDrag",
    "rangeZoom"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPColorScaleENDCLASS_t {
    uint offsetsAndSizes[46];
    char stringdata0[14];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[9];
    char stringdata5[21];
    char stringdata6[19];
    char stringdata7[10];
    char stringdata8[16];
    char stringdata9[17];
    char stringdata10[12];
    char stringdata11[13];
    char stringdata12[10];
    char stringdata13[17];
    char stringdata14[12];
    char stringdata15[9];
    char stringdata16[5];
    char stringdata17[18];
    char stringdata18[14];
    char stringdata19[6];
    char stringdata20[9];
    char stringdata21[10];
    char stringdata22[10];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPColorScaleENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPColorScaleENDCLASS_t qt_meta_stringdata_CLASSQCPColorScaleENDCLASS = {
    {
        QT_MOC_LITERAL(0, 13),  // "QCPColorScale"
        QT_MOC_LITERAL(14, 16),  // "dataRangeChanged"
        QT_MOC_LITERAL(31, 0),  // ""
        QT_MOC_LITERAL(32, 8),  // "QCPRange"
        QT_MOC_LITERAL(41, 8),  // "newRange"
        QT_MOC_LITERAL(50, 20),  // "dataScaleTypeChanged"
        QT_MOC_LITERAL(71, 18),  // "QCPAxis::ScaleType"
        QT_MOC_LITERAL(90, 9),  // "scaleType"
        QT_MOC_LITERAL(100, 15),  // "gradientChanged"
        QT_MOC_LITERAL(116, 16),  // "QCPColorGradient"
        QT_MOC_LITERAL(133, 11),  // "newGradient"
        QT_MOC_LITERAL(145, 12),  // "setDataRange"
        QT_MOC_LITERAL(158, 9),  // "dataRange"
        QT_MOC_LITERAL(168, 16),  // "setDataScaleType"
        QT_MOC_LITERAL(185, 11),  // "setGradient"
        QT_MOC_LITERAL(197, 8),  // "gradient"
        QT_MOC_LITERAL(206, 4),  // "type"
        QT_MOC_LITERAL(211, 17),  // "QCPAxis::AxisType"
        QT_MOC_LITERAL(229, 13),  // "dataScaleType"
        QT_MOC_LITERAL(243, 5),  // "label"
        QT_MOC_LITERAL(249, 8),  // "barWidth"
        QT_MOC_LITERAL(258, 9),  // "rangeDrag"
        QT_MOC_LITERAL(268, 9)   // "rangeZoom"
    },
    "QCPColorScale",
    "dataRangeChanged",
    "",
    "QCPRange",
    "newRange",
    "dataScaleTypeChanged",
    "QCPAxis::ScaleType",
    "scaleType",
    "gradientChanged",
    "QCPColorGradient",
    "newGradient",
    "setDataRange",
    "dataRange",
    "setDataScaleType",
    "setGradient",
    "gradient",
    "type",
    "QCPAxis::AxisType",
    "dataScaleType",
    "label",
    "barWidth",
    "rangeDrag",
    "rangeZoom"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPColorScaleENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       6,   14, // methods
       8,   68, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       3,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   50,    2, 0x06,    9 /* Public */,
       5,    1,   53,    2, 0x06,   11 /* Public */,
       8,    1,   56,    2, 0x06,   13 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
      11,    1,   59,    2, 0x0a,   15 /* Public */,
      13,    1,   62,    2, 0x0a,   17 /* Public */,
      14,    1,   65,    2, 0x0a,   19 /* Public */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 6,    7,
    QMetaType::Void, 0x80000000 | 9,   10,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 3,   12,
    QMetaType::Void, 0x80000000 | 6,    7,
    QMetaType::Void, 0x80000000 | 9,   15,

 // properties: name, type, flags
      16, 0x80000000 | 17, 0x0001510b, uint(-1), 0,
      12, 0x80000000 | 3, 0x0001510b, uint(0), 0,
      18, 0x80000000 | 6, 0x0001510b, uint(1), 0,
      15, 0x80000000 | 9, 0x0001510b, uint(2), 0,
      19, QMetaType::QString, 0x00015103, uint(-1), 0,
      20, QMetaType::Int, 0x00015103, uint(-1), 0,
      21, QMetaType::Bool, 0x00015103, uint(-1), 0,
      22, QMetaType::Bool, 0x00015103, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT static const QMetaObject::SuperData qt_meta_extradata_CLASSQCPColorScaleENDCLASS[] = {
    QMetaObject::SuperData::link<QCPAxis::staticMetaObject>(),
    nullptr
};

Q_CONSTINIT const QMetaObject QCPColorScale::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayoutElement::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPColorScaleENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPColorScaleENDCLASS,
    qt_static_metacall,
    qt_meta_extradata_CLASSQCPColorScaleENDCLASS,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPColorScaleENDCLASS_t,
        // property 'type'
        QtPrivate::TypeAndForceComplete<QCPAxis::AxisType, std::true_type>,
        // property 'dataRange'
        QtPrivate::TypeAndForceComplete<QCPRange, std::true_type>,
        // property 'dataScaleType'
        QtPrivate::TypeAndForceComplete<QCPAxis::ScaleType, std::true_type>,
        // property 'gradient'
        QtPrivate::TypeAndForceComplete<QCPColorGradient, std::true_type>,
        // property 'label'
        QtPrivate::TypeAndForceComplete<QString, std::true_type>,
        // property 'barWidth'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'rangeDrag'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'rangeZoom'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPColorScale, std::true_type>,
        // method 'dataRangeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'dataScaleTypeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::ScaleType, std::false_type>,
        // method 'gradientChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPColorGradient &, std::false_type>,
        // method 'setDataRange'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'setDataScaleType'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::ScaleType, std::false_type>,
        // method 'setGradient'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPColorGradient &, std::false_type>
    >,
    nullptr
} };

void QCPColorScale::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPColorScale *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->dataRangeChanged((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 1: _t->dataScaleTypeChanged((*reinterpret_cast< std::add_pointer_t<QCPAxis::ScaleType>>(_a[1]))); break;
        case 2: _t->gradientChanged((*reinterpret_cast< std::add_pointer_t<QCPColorGradient>>(_a[1]))); break;
        case 3: _t->setDataRange((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 4: _t->setDataScaleType((*reinterpret_cast< std::add_pointer_t<QCPAxis::ScaleType>>(_a[1]))); break;
        case 5: _t->setGradient((*reinterpret_cast< std::add_pointer_t<QCPColorGradient>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        switch (_id) {
        default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
        case 1:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis::ScaleType >(); break;
            }
            break;
        case 4:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis::ScaleType >(); break;
            }
            break;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPColorScale::*)(const QCPRange & );
            if (_t _q_method = &QCPColorScale::dataRangeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPColorScale::*)(QCPAxis::ScaleType );
            if (_t _q_method = &QCPColorScale::dataScaleTypeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPColorScale::*)(const QCPColorGradient & );
            if (_t _q_method = &QCPColorScale::gradientChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
    } else if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 0:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPAxis::AxisType >(); break;
        case 2:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPAxis::ScaleType >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPColorScale *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QCPAxis::AxisType*>(_v) = _t->type(); break;
        case 1: *reinterpret_cast< QCPRange*>(_v) = _t->dataRange(); break;
        case 2: *reinterpret_cast< QCPAxis::ScaleType*>(_v) = _t->dataScaleType(); break;
        case 3: *reinterpret_cast< QCPColorGradient*>(_v) = _t->gradient(); break;
        case 4: *reinterpret_cast< QString*>(_v) = _t->label(); break;
        case 5: *reinterpret_cast< int*>(_v) = _t->barWidth(); break;
        case 6: *reinterpret_cast< bool*>(_v) = _t->rangeDrag(); break;
        case 7: *reinterpret_cast< bool*>(_v) = _t->rangeZoom(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPColorScale *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setType(*reinterpret_cast< QCPAxis::AxisType*>(_v)); break;
        case 1: _t->setDataRange(*reinterpret_cast< QCPRange*>(_v)); break;
        case 2: _t->setDataScaleType(*reinterpret_cast< QCPAxis::ScaleType*>(_v)); break;
        case 3: _t->setGradient(*reinterpret_cast< QCPColorGradient*>(_v)); break;
        case 4: _t->setLabel(*reinterpret_cast< QString*>(_v)); break;
        case 5: _t->setBarWidth(*reinterpret_cast< int*>(_v)); break;
        case 6: _t->setRangeDrag(*reinterpret_cast< bool*>(_v)); break;
        case 7: _t->setRangeZoom(*reinterpret_cast< bool*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPColorScale::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPColorScale::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPColorScaleENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayoutElement::qt_metacast(_clname);
}

int QCPColorScale::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayoutElement::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 6)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 6;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 6)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 6;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 8;
    }
    return _id;
}

// SIGNAL 0
void QCPColorScale::dataRangeChanged(const QCPRange & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPColorScale::dataScaleTypeChanged(QCPAxis::ScaleType _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPColorScale::gradientChanged(const QCPColorGradient & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPGraphENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPGraphENDCLASS = QtMocHelpers::stringData(
    "QCPGraph",
    "lineStyle",
    "LineStyle",
    "scatterStyle",
    "QCPScatterStyle",
    "scatterSkip",
    "channelFillGraph",
    "QCPGraph*",
    "adaptiveSampling",
    "lsNone",
    "lsLine",
    "lsStepLeft",
    "lsStepRight",
    "lsStepCenter",
    "lsImpulse"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPGraphENDCLASS_t {
    uint offsetsAndSizes[30];
    char stringdata0[9];
    char stringdata1[10];
    char stringdata2[10];
    char stringdata3[13];
    char stringdata4[16];
    char stringdata5[12];
    char stringdata6[17];
    char stringdata7[10];
    char stringdata8[17];
    char stringdata9[7];
    char stringdata10[7];
    char stringdata11[11];
    char stringdata12[12];
    char stringdata13[13];
    char stringdata14[10];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPGraphENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPGraphENDCLASS_t qt_meta_stringdata_CLASSQCPGraphENDCLASS = {
    {
        QT_MOC_LITERAL(0, 8),  // "QCPGraph"
        QT_MOC_LITERAL(9, 9),  // "lineStyle"
        QT_MOC_LITERAL(19, 9),  // "LineStyle"
        QT_MOC_LITERAL(29, 12),  // "scatterStyle"
        QT_MOC_LITERAL(42, 15),  // "QCPScatterStyle"
        QT_MOC_LITERAL(58, 11),  // "scatterSkip"
        QT_MOC_LITERAL(70, 16),  // "channelFillGraph"
        QT_MOC_LITERAL(87, 9),  // "QCPGraph*"
        QT_MOC_LITERAL(97, 16),  // "adaptiveSampling"
        QT_MOC_LITERAL(114, 6),  // "lsNone"
        QT_MOC_LITERAL(121, 6),  // "lsLine"
        QT_MOC_LITERAL(128, 10),  // "lsStepLeft"
        QT_MOC_LITERAL(139, 11),  // "lsStepRight"
        QT_MOC_LITERAL(151, 12),  // "lsStepCenter"
        QT_MOC_LITERAL(164, 9)   // "lsImpulse"
    },
    "QCPGraph",
    "lineStyle",
    "LineStyle",
    "scatterStyle",
    "QCPScatterStyle",
    "scatterSkip",
    "channelFillGraph",
    "QCPGraph*",
    "adaptiveSampling",
    "lsNone",
    "lsLine",
    "lsStepLeft",
    "lsStepRight",
    "lsStepCenter",
    "lsImpulse"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPGraphENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       5,   14, // properties
       1,   39, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, 0x80000000 | 2, 0x0001510b, uint(-1), 0,
       3, 0x80000000 | 4, 0x0001510b, uint(-1), 0,
       5, QMetaType::Int, 0x00015103, uint(-1), 0,
       6, 0x80000000 | 7, 0x0001510b, uint(-1), 0,
       8, QMetaType::Bool, 0x00015103, uint(-1), 0,

 // enums: name, alias, flags, count, data
       2,    2, 0x0,    6,   44,

 // enum data: key, value
       9, uint(QCPGraph::lsNone),
      10, uint(QCPGraph::lsLine),
      11, uint(QCPGraph::lsStepLeft),
      12, uint(QCPGraph::lsStepRight),
      13, uint(QCPGraph::lsStepCenter),
      14, uint(QCPGraph::lsImpulse),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPGraph::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractPlottable1D<QCPGraphData>::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPGraphENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPGraphENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPGraphENDCLASS_t,
        // property 'lineStyle'
        QtPrivate::TypeAndForceComplete<LineStyle, std::true_type>,
        // property 'scatterStyle'
        QtPrivate::TypeAndForceComplete<QCPScatterStyle, std::true_type>,
        // property 'scatterSkip'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'channelFillGraph'
        QtPrivate::TypeAndForceComplete<QCPGraph*, std::true_type>,
        // property 'adaptiveSampling'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPGraph, std::true_type>
    >,
    nullptr
} };

void QCPGraph::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 3:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPGraph* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPGraph *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< LineStyle*>(_v) = _t->lineStyle(); break;
        case 1: *reinterpret_cast< QCPScatterStyle*>(_v) = _t->scatterStyle(); break;
        case 2: *reinterpret_cast< int*>(_v) = _t->scatterSkip(); break;
        case 3: *reinterpret_cast< QCPGraph**>(_v) = _t->channelFillGraph(); break;
        case 4: *reinterpret_cast< bool*>(_v) = _t->adaptiveSampling(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPGraph *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setLineStyle(*reinterpret_cast< LineStyle*>(_v)); break;
        case 1: _t->setScatterStyle(*reinterpret_cast< QCPScatterStyle*>(_v)); break;
        case 2: _t->setScatterSkip(*reinterpret_cast< int*>(_v)); break;
        case 3: _t->setChannelFillGraph(*reinterpret_cast< QCPGraph**>(_v)); break;
        case 4: _t->setAdaptiveSampling(*reinterpret_cast< bool*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
}

const QMetaObject *QCPGraph::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPGraph::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPGraphENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractPlottable1D<QCPGraphData>::qt_metacast(_clname);
}

int QCPGraph::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractPlottable1D<QCPGraphData>::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPCurveENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPCurveENDCLASS = QtMocHelpers::stringData(
    "QCPCurve",
    "scatterStyle",
    "QCPScatterStyle",
    "scatterSkip",
    "lineStyle",
    "LineStyle",
    "lsNone",
    "lsLine"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPCurveENDCLASS_t {
    uint offsetsAndSizes[16];
    char stringdata0[9];
    char stringdata1[13];
    char stringdata2[16];
    char stringdata3[12];
    char stringdata4[10];
    char stringdata5[10];
    char stringdata6[7];
    char stringdata7[7];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPCurveENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPCurveENDCLASS_t qt_meta_stringdata_CLASSQCPCurveENDCLASS = {
    {
        QT_MOC_LITERAL(0, 8),  // "QCPCurve"
        QT_MOC_LITERAL(9, 12),  // "scatterStyle"
        QT_MOC_LITERAL(22, 15),  // "QCPScatterStyle"
        QT_MOC_LITERAL(38, 11),  // "scatterSkip"
        QT_MOC_LITERAL(50, 9),  // "lineStyle"
        QT_MOC_LITERAL(60, 9),  // "LineStyle"
        QT_MOC_LITERAL(70, 6),  // "lsNone"
        QT_MOC_LITERAL(77, 6)   // "lsLine"
    },
    "QCPCurve",
    "scatterStyle",
    "QCPScatterStyle",
    "scatterSkip",
    "lineStyle",
    "LineStyle",
    "lsNone",
    "lsLine"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPCurveENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       3,   14, // properties
       1,   29, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, 0x80000000 | 2, 0x0001510b, uint(-1), 0,
       3, QMetaType::Int, 0x00015103, uint(-1), 0,
       4, 0x80000000 | 5, 0x0001510b, uint(-1), 0,

 // enums: name, alias, flags, count, data
       5,    5, 0x0,    2,   34,

 // enum data: key, value
       6, uint(QCPCurve::lsNone),
       7, uint(QCPCurve::lsLine),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPCurve::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractPlottable1D<QCPCurveData>::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPCurveENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPCurveENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPCurveENDCLASS_t,
        // property 'scatterStyle'
        QtPrivate::TypeAndForceComplete<QCPScatterStyle, std::true_type>,
        // property 'scatterSkip'
        QtPrivate::TypeAndForceComplete<int, std::true_type>,
        // property 'lineStyle'
        QtPrivate::TypeAndForceComplete<LineStyle, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPCurve, std::true_type>
    >,
    nullptr
} };

void QCPCurve::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPCurve *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QCPScatterStyle*>(_v) = _t->scatterStyle(); break;
        case 1: *reinterpret_cast< int*>(_v) = _t->scatterSkip(); break;
        case 2: *reinterpret_cast< LineStyle*>(_v) = _t->lineStyle(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPCurve *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setScatterStyle(*reinterpret_cast< QCPScatterStyle*>(_v)); break;
        case 1: _t->setScatterSkip(*reinterpret_cast< int*>(_v)); break;
        case 2: _t->setLineStyle(*reinterpret_cast< LineStyle*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPCurve::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPCurve::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPCurveENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractPlottable1D<QCPCurveData>::qt_metacast(_clname);
}

int QCPCurve::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractPlottable1D<QCPCurveData>::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 3;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS = QtMocHelpers::stringData(
    "QCPBarsGroup",
    "spacingType",
    "SpacingType",
    "spacing",
    "stAbsolute",
    "stAxisRectRatio",
    "stPlotCoords"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS_t {
    uint offsetsAndSizes[14];
    char stringdata0[13];
    char stringdata1[12];
    char stringdata2[12];
    char stringdata3[8];
    char stringdata4[11];
    char stringdata5[16];
    char stringdata6[13];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS_t qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS = {
    {
        QT_MOC_LITERAL(0, 12),  // "QCPBarsGroup"
        QT_MOC_LITERAL(13, 11),  // "spacingType"
        QT_MOC_LITERAL(25, 11),  // "SpacingType"
        QT_MOC_LITERAL(37, 7),  // "spacing"
        QT_MOC_LITERAL(45, 10),  // "stAbsolute"
        QT_MOC_LITERAL(56, 15),  // "stAxisRectRatio"
        QT_MOC_LITERAL(72, 12)   // "stPlotCoords"
    },
    "QCPBarsGroup",
    "spacingType",
    "SpacingType",
    "spacing",
    "stAbsolute",
    "stAxisRectRatio",
    "stPlotCoords"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPBarsGroupENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       2,   14, // properties
       1,   24, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, 0x80000000 | 2, 0x0001510b, uint(-1), 0,
       3, QMetaType::Double, 0x00015103, uint(-1), 0,

 // enums: name, alias, flags, count, data
       2,    2, 0x0,    3,   29,

 // enum data: key, value
       4, uint(QCPBarsGroup::stAbsolute),
       5, uint(QCPBarsGroup::stAxisRectRatio),
       6, uint(QCPBarsGroup::stPlotCoords),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPBarsGroup::staticMetaObject = { {
    QMetaObject::SuperData::link<QObject::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPBarsGroupENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS_t,
        // property 'spacingType'
        QtPrivate::TypeAndForceComplete<SpacingType, std::true_type>,
        // property 'spacing'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPBarsGroup, std::true_type>
    >,
    nullptr
} };

void QCPBarsGroup::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPBarsGroup *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< SpacingType*>(_v) = _t->spacingType(); break;
        case 1: *reinterpret_cast< double*>(_v) = _t->spacing(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPBarsGroup *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setSpacingType(*reinterpret_cast< SpacingType*>(_v)); break;
        case 1: _t->setSpacing(*reinterpret_cast< double*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPBarsGroup::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPBarsGroup::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPBarsGroupENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QObject::qt_metacast(_clname);
}

int QCPBarsGroup::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QObject::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 2;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPBarsENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPBarsENDCLASS = QtMocHelpers::stringData(
    "QCPBars",
    "width",
    "widthType",
    "WidthType",
    "barsGroup",
    "QCPBarsGroup*",
    "baseValue",
    "stackingGap",
    "barBelow",
    "QCPBars*",
    "barAbove",
    "wtAbsolute",
    "wtAxisRectRatio",
    "wtPlotCoords"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPBarsENDCLASS_t {
    uint offsetsAndSizes[28];
    char stringdata0[8];
    char stringdata1[6];
    char stringdata2[10];
    char stringdata3[10];
    char stringdata4[10];
    char stringdata5[14];
    char stringdata6[10];
    char stringdata7[12];
    char stringdata8[9];
    char stringdata9[9];
    char stringdata10[9];
    char stringdata11[11];
    char stringdata12[16];
    char stringdata13[13];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPBarsENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPBarsENDCLASS_t qt_meta_stringdata_CLASSQCPBarsENDCLASS = {
    {
        QT_MOC_LITERAL(0, 7),  // "QCPBars"
        QT_MOC_LITERAL(8, 5),  // "width"
        QT_MOC_LITERAL(14, 9),  // "widthType"
        QT_MOC_LITERAL(24, 9),  // "WidthType"
        QT_MOC_LITERAL(34, 9),  // "barsGroup"
        QT_MOC_LITERAL(44, 13),  // "QCPBarsGroup*"
        QT_MOC_LITERAL(58, 9),  // "baseValue"
        QT_MOC_LITERAL(68, 11),  // "stackingGap"
        QT_MOC_LITERAL(80, 8),  // "barBelow"
        QT_MOC_LITERAL(89, 8),  // "QCPBars*"
        QT_MOC_LITERAL(98, 8),  // "barAbove"
        QT_MOC_LITERAL(107, 10),  // "wtAbsolute"
        QT_MOC_LITERAL(118, 15),  // "wtAxisRectRatio"
        QT_MOC_LITERAL(134, 12)   // "wtPlotCoords"
    },
    "QCPBars",
    "width",
    "widthType",
    "WidthType",
    "barsGroup",
    "QCPBarsGroup*",
    "baseValue",
    "stackingGap",
    "barBelow",
    "QCPBars*",
    "barAbove",
    "wtAbsolute",
    "wtAxisRectRatio",
    "wtPlotCoords"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPBarsENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       7,   14, // properties
       1,   49, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::Double, 0x00015103, uint(-1), 0,
       2, 0x80000000 | 3, 0x0001510b, uint(-1), 0,
       4, 0x80000000 | 5, 0x0001510b, uint(-1), 0,
       6, QMetaType::Double, 0x00015103, uint(-1), 0,
       7, QMetaType::Double, 0x00015103, uint(-1), 0,
       8, 0x80000000 | 9, 0x00015009, uint(-1), 0,
      10, 0x80000000 | 9, 0x00015009, uint(-1), 0,

 // enums: name, alias, flags, count, data
       3,    3, 0x0,    3,   54,

 // enum data: key, value
      11, uint(QCPBars::wtAbsolute),
      12, uint(QCPBars::wtAxisRectRatio),
      13, uint(QCPBars::wtPlotCoords),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPBars::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractPlottable1D<QCPBarsData>::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPBarsENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPBarsENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPBarsENDCLASS_t,
        // property 'width'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'widthType'
        QtPrivate::TypeAndForceComplete<WidthType, std::true_type>,
        // property 'barsGroup'
        QtPrivate::TypeAndForceComplete<QCPBarsGroup*, std::true_type>,
        // property 'baseValue'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'stackingGap'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'barBelow'
        QtPrivate::TypeAndForceComplete<QCPBars*, std::true_type>,
        // property 'barAbove'
        QtPrivate::TypeAndForceComplete<QCPBars*, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPBars, std::true_type>
    >,
    nullptr
} };

void QCPBars::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 6:
        case 5:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPBars* >(); break;
        case 2:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPBarsGroup* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPBars *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< double*>(_v) = _t->width(); break;
        case 1: *reinterpret_cast< WidthType*>(_v) = _t->widthType(); break;
        case 2: *reinterpret_cast< QCPBarsGroup**>(_v) = _t->barsGroup(); break;
        case 3: *reinterpret_cast< double*>(_v) = _t->baseValue(); break;
        case 4: *reinterpret_cast< double*>(_v) = _t->stackingGap(); break;
        case 5: *reinterpret_cast< QCPBars**>(_v) = _t->barBelow(); break;
        case 6: *reinterpret_cast< QCPBars**>(_v) = _t->barAbove(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPBars *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setWidth(*reinterpret_cast< double*>(_v)); break;
        case 1: _t->setWidthType(*reinterpret_cast< WidthType*>(_v)); break;
        case 2: _t->setBarsGroup(*reinterpret_cast< QCPBarsGroup**>(_v)); break;
        case 3: _t->setBaseValue(*reinterpret_cast< double*>(_v)); break;
        case 4: _t->setStackingGap(*reinterpret_cast< double*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
}

const QMetaObject *QCPBars::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPBars::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPBarsENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractPlottable1D<QCPBarsData>::qt_metacast(_clname);
}

int QCPBars::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractPlottable1D<QCPBarsData>::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 7;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS = QtMocHelpers::stringData(
    "QCPStatisticalBox",
    "width",
    "whiskerWidth",
    "whiskerPen",
    "whiskerBarPen",
    "whiskerAntialiased",
    "medianPen",
    "outlierStyle",
    "QCPScatterStyle"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS_t {
    uint offsetsAndSizes[18];
    char stringdata0[18];
    char stringdata1[6];
    char stringdata2[13];
    char stringdata3[11];
    char stringdata4[14];
    char stringdata5[19];
    char stringdata6[10];
    char stringdata7[13];
    char stringdata8[16];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS_t qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS = {
    {
        QT_MOC_LITERAL(0, 17),  // "QCPStatisticalBox"
        QT_MOC_LITERAL(18, 5),  // "width"
        QT_MOC_LITERAL(24, 12),  // "whiskerWidth"
        QT_MOC_LITERAL(37, 10),  // "whiskerPen"
        QT_MOC_LITERAL(48, 13),  // "whiskerBarPen"
        QT_MOC_LITERAL(62, 18),  // "whiskerAntialiased"
        QT_MOC_LITERAL(81, 9),  // "medianPen"
        QT_MOC_LITERAL(91, 12),  // "outlierStyle"
        QT_MOC_LITERAL(104, 15)   // "QCPScatterStyle"
    },
    "QCPStatisticalBox",
    "width",
    "whiskerWidth",
    "whiskerPen",
    "whiskerBarPen",
    "whiskerAntialiased",
    "medianPen",
    "outlierStyle",
    "QCPScatterStyle"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPStatisticalBoxENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       7,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::Double, 0x00015103, uint(-1), 0,
       2, QMetaType::Double, 0x00015103, uint(-1), 0,
       3, QMetaType::QPen, 0x00015103, uint(-1), 0,
       4, QMetaType::QPen, 0x00015103, uint(-1), 0,
       5, QMetaType::Bool, 0x00015103, uint(-1), 0,
       6, QMetaType::QPen, 0x00015103, uint(-1), 0,
       7, 0x80000000 | 8, 0x0001510b, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPStatisticalBox::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractPlottable1D<QCPStatisticalBoxData>::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPStatisticalBoxENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS_t,
        // property 'width'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'whiskerWidth'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'whiskerPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'whiskerBarPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'whiskerAntialiased'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'medianPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'outlierStyle'
        QtPrivate::TypeAndForceComplete<QCPScatterStyle, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPStatisticalBox, std::true_type>
    >,
    nullptr
} };

void QCPStatisticalBox::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPStatisticalBox *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< double*>(_v) = _t->width(); break;
        case 1: *reinterpret_cast< double*>(_v) = _t->whiskerWidth(); break;
        case 2: *reinterpret_cast< QPen*>(_v) = _t->whiskerPen(); break;
        case 3: *reinterpret_cast< QPen*>(_v) = _t->whiskerBarPen(); break;
        case 4: *reinterpret_cast< bool*>(_v) = _t->whiskerAntialiased(); break;
        case 5: *reinterpret_cast< QPen*>(_v) = _t->medianPen(); break;
        case 6: *reinterpret_cast< QCPScatterStyle*>(_v) = _t->outlierStyle(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPStatisticalBox *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setWidth(*reinterpret_cast< double*>(_v)); break;
        case 1: _t->setWhiskerWidth(*reinterpret_cast< double*>(_v)); break;
        case 2: _t->setWhiskerPen(*reinterpret_cast< QPen*>(_v)); break;
        case 3: _t->setWhiskerBarPen(*reinterpret_cast< QPen*>(_v)); break;
        case 4: _t->setWhiskerAntialiased(*reinterpret_cast< bool*>(_v)); break;
        case 5: _t->setMedianPen(*reinterpret_cast< QPen*>(_v)); break;
        case 6: _t->setOutlierStyle(*reinterpret_cast< QCPScatterStyle*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPStatisticalBox::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPStatisticalBox::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPStatisticalBoxENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractPlottable1D<QCPStatisticalBoxData>::qt_metacast(_clname);
}

int QCPStatisticalBox::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractPlottable1D<QCPStatisticalBoxData>::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 7;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPColorMapENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPColorMapENDCLASS = QtMocHelpers::stringData(
    "QCPColorMap",
    "dataRangeChanged",
    "",
    "QCPRange",
    "newRange",
    "dataScaleTypeChanged",
    "QCPAxis::ScaleType",
    "scaleType",
    "gradientChanged",
    "QCPColorGradient",
    "newGradient",
    "setDataRange",
    "dataRange",
    "setDataScaleType",
    "setGradient",
    "gradient",
    "updateLegendIcon",
    "Qt::TransformationMode",
    "transformMode",
    "thumbSize",
    "dataScaleType",
    "interpolate",
    "tightBoundary",
    "colorScale",
    "QCPColorScale*"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPColorMapENDCLASS_t {
    uint offsetsAndSizes[50];
    char stringdata0[12];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[9];
    char stringdata5[21];
    char stringdata6[19];
    char stringdata7[10];
    char stringdata8[16];
    char stringdata9[17];
    char stringdata10[12];
    char stringdata11[13];
    char stringdata12[10];
    char stringdata13[17];
    char stringdata14[12];
    char stringdata15[9];
    char stringdata16[17];
    char stringdata17[23];
    char stringdata18[14];
    char stringdata19[10];
    char stringdata20[14];
    char stringdata21[12];
    char stringdata22[14];
    char stringdata23[11];
    char stringdata24[15];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPColorMapENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPColorMapENDCLASS_t qt_meta_stringdata_CLASSQCPColorMapENDCLASS = {
    {
        QT_MOC_LITERAL(0, 11),  // "QCPColorMap"
        QT_MOC_LITERAL(12, 16),  // "dataRangeChanged"
        QT_MOC_LITERAL(29, 0),  // ""
        QT_MOC_LITERAL(30, 8),  // "QCPRange"
        QT_MOC_LITERAL(39, 8),  // "newRange"
        QT_MOC_LITERAL(48, 20),  // "dataScaleTypeChanged"
        QT_MOC_LITERAL(69, 18),  // "QCPAxis::ScaleType"
        QT_MOC_LITERAL(88, 9),  // "scaleType"
        QT_MOC_LITERAL(98, 15),  // "gradientChanged"
        QT_MOC_LITERAL(114, 16),  // "QCPColorGradient"
        QT_MOC_LITERAL(131, 11),  // "newGradient"
        QT_MOC_LITERAL(143, 12),  // "setDataRange"
        QT_MOC_LITERAL(156, 9),  // "dataRange"
        QT_MOC_LITERAL(166, 16),  // "setDataScaleType"
        QT_MOC_LITERAL(183, 11),  // "setGradient"
        QT_MOC_LITERAL(195, 8),  // "gradient"
        QT_MOC_LITERAL(204, 16),  // "updateLegendIcon"
        QT_MOC_LITERAL(221, 22),  // "Qt::TransformationMode"
        QT_MOC_LITERAL(244, 13),  // "transformMode"
        QT_MOC_LITERAL(258, 9),  // "thumbSize"
        QT_MOC_LITERAL(268, 13),  // "dataScaleType"
        QT_MOC_LITERAL(282, 11),  // "interpolate"
        QT_MOC_LITERAL(294, 13),  // "tightBoundary"
        QT_MOC_LITERAL(308, 10),  // "colorScale"
        QT_MOC_LITERAL(319, 14)   // "QCPColorScale*"
    },
    "QCPColorMap",
    "dataRangeChanged",
    "",
    "QCPRange",
    "newRange",
    "dataScaleTypeChanged",
    "QCPAxis::ScaleType",
    "scaleType",
    "gradientChanged",
    "QCPColorGradient",
    "newGradient",
    "setDataRange",
    "dataRange",
    "setDataScaleType",
    "setGradient",
    "gradient",
    "updateLegendIcon",
    "Qt::TransformationMode",
    "transformMode",
    "thumbSize",
    "dataScaleType",
    "interpolate",
    "tightBoundary",
    "colorScale",
    "QCPColorScale*"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPColorMapENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       9,   14, // methods
       6,   95, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       3,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   68,    2, 0x06,    7 /* Public */,
       5,    1,   71,    2, 0x06,    9 /* Public */,
       8,    1,   74,    2, 0x06,   11 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
      11,    1,   77,    2, 0x0a,   13 /* Public */,
      13,    1,   80,    2, 0x0a,   15 /* Public */,
      14,    1,   83,    2, 0x0a,   17 /* Public */,
      16,    2,   86,    2, 0x0a,   19 /* Public */,
      16,    1,   91,    2, 0x2a,   22 /* Public | MethodCloned */,
      16,    0,   94,    2, 0x2a,   24 /* Public | MethodCloned */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 6,    7,
    QMetaType::Void, 0x80000000 | 9,   10,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 3,   12,
    QMetaType::Void, 0x80000000 | 6,    7,
    QMetaType::Void, 0x80000000 | 9,   15,
    QMetaType::Void, 0x80000000 | 17, QMetaType::QSize,   18,   19,
    QMetaType::Void, 0x80000000 | 17,   18,
    QMetaType::Void,

 // properties: name, type, flags
      12, 0x80000000 | 3, 0x0001510b, uint(0), 0,
      20, 0x80000000 | 6, 0x0001510b, uint(1), 0,
      15, 0x80000000 | 9, 0x0001510b, uint(2), 0,
      21, QMetaType::Bool, 0x00015103, uint(-1), 0,
      22, QMetaType::Bool, 0x00015103, uint(-1), 0,
      23, 0x80000000 | 24, 0x0001510b, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT static const QMetaObject::SuperData qt_meta_extradata_CLASSQCPColorMapENDCLASS[] = {
    QMetaObject::SuperData::link<QCPAxis::staticMetaObject>(),
    nullptr
};

Q_CONSTINIT const QMetaObject QCPColorMap::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractPlottable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPColorMapENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPColorMapENDCLASS,
    qt_static_metacall,
    qt_meta_extradata_CLASSQCPColorMapENDCLASS,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPColorMapENDCLASS_t,
        // property 'dataRange'
        QtPrivate::TypeAndForceComplete<QCPRange, std::true_type>,
        // property 'dataScaleType'
        QtPrivate::TypeAndForceComplete<QCPAxis::ScaleType, std::true_type>,
        // property 'gradient'
        QtPrivate::TypeAndForceComplete<QCPColorGradient, std::true_type>,
        // property 'interpolate'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'tightBoundary'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'colorScale'
        QtPrivate::TypeAndForceComplete<QCPColorScale*, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPColorMap, std::true_type>,
        // method 'dataRangeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'dataScaleTypeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::ScaleType, std::false_type>,
        // method 'gradientChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPColorGradient &, std::false_type>,
        // method 'setDataRange'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'setDataScaleType'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPAxis::ScaleType, std::false_type>,
        // method 'setGradient'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPColorGradient &, std::false_type>,
        // method 'updateLegendIcon'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<Qt::TransformationMode, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QSize &, std::false_type>,
        // method 'updateLegendIcon'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<Qt::TransformationMode, std::false_type>,
        // method 'updateLegendIcon'
        QtPrivate::TypeAndForceComplete<void, std::false_type>
    >,
    nullptr
} };

void QCPColorMap::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPColorMap *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->dataRangeChanged((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 1: _t->dataScaleTypeChanged((*reinterpret_cast< std::add_pointer_t<QCPAxis::ScaleType>>(_a[1]))); break;
        case 2: _t->gradientChanged((*reinterpret_cast< std::add_pointer_t<QCPColorGradient>>(_a[1]))); break;
        case 3: _t->setDataRange((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 4: _t->setDataScaleType((*reinterpret_cast< std::add_pointer_t<QCPAxis::ScaleType>>(_a[1]))); break;
        case 5: _t->setGradient((*reinterpret_cast< std::add_pointer_t<QCPColorGradient>>(_a[1]))); break;
        case 6: _t->updateLegendIcon((*reinterpret_cast< std::add_pointer_t<Qt::TransformationMode>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QSize>>(_a[2]))); break;
        case 7: _t->updateLegendIcon((*reinterpret_cast< std::add_pointer_t<Qt::TransformationMode>>(_a[1]))); break;
        case 8: _t->updateLegendIcon(); break;
        default: ;
        }
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        switch (_id) {
        default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
        case 1:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis::ScaleType >(); break;
            }
            break;
        case 4:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPAxis::ScaleType >(); break;
            }
            break;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPColorMap::*)(const QCPRange & );
            if (_t _q_method = &QCPColorMap::dataRangeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPColorMap::*)(QCPAxis::ScaleType );
            if (_t _q_method = &QCPColorMap::dataScaleTypeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPColorMap::*)(const QCPColorGradient & );
            if (_t _q_method = &QCPColorMap::gradientChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
    } else if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 1:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPAxis::ScaleType >(); break;
        case 5:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPColorScale* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPColorMap *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QCPRange*>(_v) = _t->dataRange(); break;
        case 1: *reinterpret_cast< QCPAxis::ScaleType*>(_v) = _t->dataScaleType(); break;
        case 2: *reinterpret_cast< QCPColorGradient*>(_v) = _t->gradient(); break;
        case 3: *reinterpret_cast< bool*>(_v) = _t->interpolate(); break;
        case 4: *reinterpret_cast< bool*>(_v) = _t->tightBoundary(); break;
        case 5: *reinterpret_cast< QCPColorScale**>(_v) = _t->colorScale(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPColorMap *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setDataRange(*reinterpret_cast< QCPRange*>(_v)); break;
        case 1: _t->setDataScaleType(*reinterpret_cast< QCPAxis::ScaleType*>(_v)); break;
        case 2: _t->setGradient(*reinterpret_cast< QCPColorGradient*>(_v)); break;
        case 3: _t->setInterpolate(*reinterpret_cast< bool*>(_v)); break;
        case 4: _t->setTightBoundary(*reinterpret_cast< bool*>(_v)); break;
        case 5: _t->setColorScale(*reinterpret_cast< QCPColorScale**>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
}

const QMetaObject *QCPColorMap::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPColorMap::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPColorMapENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractPlottable::qt_metacast(_clname);
}

int QCPColorMap::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractPlottable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 9)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 9;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 9)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 9;
    }else if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 6;
    }
    return _id;
}

// SIGNAL 0
void QCPColorMap::dataRangeChanged(const QCPRange & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPColorMap::dataScaleTypeChanged(QCPAxis::ScaleType _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPColorMap::gradientChanged(const QCPColorGradient & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPFinancialENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPFinancialENDCLASS = QtMocHelpers::stringData(
    "QCPFinancial",
    "chartStyle",
    "ChartStyle",
    "width",
    "widthType",
    "WidthType",
    "twoColored",
    "brushPositive",
    "brushNegative",
    "penPositive",
    "penNegative",
    "wtAbsolute",
    "wtAxisRectRatio",
    "wtPlotCoords",
    "csOhlc",
    "csCandlestick"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPFinancialENDCLASS_t {
    uint offsetsAndSizes[32];
    char stringdata0[13];
    char stringdata1[11];
    char stringdata2[11];
    char stringdata3[6];
    char stringdata4[10];
    char stringdata5[10];
    char stringdata6[11];
    char stringdata7[14];
    char stringdata8[14];
    char stringdata9[12];
    char stringdata10[12];
    char stringdata11[11];
    char stringdata12[16];
    char stringdata13[13];
    char stringdata14[7];
    char stringdata15[14];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPFinancialENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPFinancialENDCLASS_t qt_meta_stringdata_CLASSQCPFinancialENDCLASS = {
    {
        QT_MOC_LITERAL(0, 12),  // "QCPFinancial"
        QT_MOC_LITERAL(13, 10),  // "chartStyle"
        QT_MOC_LITERAL(24, 10),  // "ChartStyle"
        QT_MOC_LITERAL(35, 5),  // "width"
        QT_MOC_LITERAL(41, 9),  // "widthType"
        QT_MOC_LITERAL(51, 9),  // "WidthType"
        QT_MOC_LITERAL(61, 10),  // "twoColored"
        QT_MOC_LITERAL(72, 13),  // "brushPositive"
        QT_MOC_LITERAL(86, 13),  // "brushNegative"
        QT_MOC_LITERAL(100, 11),  // "penPositive"
        QT_MOC_LITERAL(112, 11),  // "penNegative"
        QT_MOC_LITERAL(124, 10),  // "wtAbsolute"
        QT_MOC_LITERAL(135, 15),  // "wtAxisRectRatio"
        QT_MOC_LITERAL(151, 12),  // "wtPlotCoords"
        QT_MOC_LITERAL(164, 6),  // "csOhlc"
        QT_MOC_LITERAL(171, 13)   // "csCandlestick"
    },
    "QCPFinancial",
    "chartStyle",
    "ChartStyle",
    "width",
    "widthType",
    "WidthType",
    "twoColored",
    "brushPositive",
    "brushNegative",
    "penPositive",
    "penNegative",
    "wtAbsolute",
    "wtAxisRectRatio",
    "wtPlotCoords",
    "csOhlc",
    "csCandlestick"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPFinancialENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       8,   14, // properties
       2,   54, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, 0x80000000 | 2, 0x0001510b, uint(-1), 0,
       3, QMetaType::Double, 0x00015103, uint(-1), 0,
       4, 0x80000000 | 5, 0x0001510b, uint(-1), 0,
       6, QMetaType::Bool, 0x00015103, uint(-1), 0,
       7, QMetaType::QBrush, 0x00015103, uint(-1), 0,
       8, QMetaType::QBrush, 0x00015103, uint(-1), 0,
       9, QMetaType::QPen, 0x00015103, uint(-1), 0,
      10, QMetaType::QPen, 0x00015103, uint(-1), 0,

 // enums: name, alias, flags, count, data
       5,    5, 0x0,    3,   64,
       2,    2, 0x0,    2,   70,

 // enum data: key, value
      11, uint(QCPFinancial::wtAbsolute),
      12, uint(QCPFinancial::wtAxisRectRatio),
      13, uint(QCPFinancial::wtPlotCoords),
      14, uint(QCPFinancial::csOhlc),
      15, uint(QCPFinancial::csCandlestick),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPFinancial::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractPlottable1D<QCPFinancialData>::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPFinancialENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPFinancialENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPFinancialENDCLASS_t,
        // property 'chartStyle'
        QtPrivate::TypeAndForceComplete<ChartStyle, std::true_type>,
        // property 'width'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'widthType'
        QtPrivate::TypeAndForceComplete<WidthType, std::true_type>,
        // property 'twoColored'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'brushPositive'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'brushNegative'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'penPositive'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'penNegative'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPFinancial, std::true_type>
    >,
    nullptr
} };

void QCPFinancial::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPFinancial *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< ChartStyle*>(_v) = _t->chartStyle(); break;
        case 1: *reinterpret_cast< double*>(_v) = _t->width(); break;
        case 2: *reinterpret_cast< WidthType*>(_v) = _t->widthType(); break;
        case 3: *reinterpret_cast< bool*>(_v) = _t->twoColored(); break;
        case 4: *reinterpret_cast< QBrush*>(_v) = _t->brushPositive(); break;
        case 5: *reinterpret_cast< QBrush*>(_v) = _t->brushNegative(); break;
        case 6: *reinterpret_cast< QPen*>(_v) = _t->penPositive(); break;
        case 7: *reinterpret_cast< QPen*>(_v) = _t->penNegative(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPFinancial *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setChartStyle(*reinterpret_cast< ChartStyle*>(_v)); break;
        case 1: _t->setWidth(*reinterpret_cast< double*>(_v)); break;
        case 2: _t->setWidthType(*reinterpret_cast< WidthType*>(_v)); break;
        case 3: _t->setTwoColored(*reinterpret_cast< bool*>(_v)); break;
        case 4: _t->setBrushPositive(*reinterpret_cast< QBrush*>(_v)); break;
        case 5: _t->setBrushNegative(*reinterpret_cast< QBrush*>(_v)); break;
        case 6: _t->setPenPositive(*reinterpret_cast< QPen*>(_v)); break;
        case 7: _t->setPenNegative(*reinterpret_cast< QPen*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPFinancial::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPFinancial::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPFinancialENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractPlottable1D<QCPFinancialData>::qt_metacast(_clname);
}

int QCPFinancial::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractPlottable1D<QCPFinancialData>::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 8;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS = QtMocHelpers::stringData(
    "QCPErrorBars",
    "data",
    "QSharedPointer<QCPErrorBarsDataContainer>",
    "dataPlottable",
    "QCPAbstractPlottable*",
    "errorType",
    "ErrorType",
    "whiskerWidth",
    "symbolGap",
    "etKeyError",
    "etValueError"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS_t {
    uint offsetsAndSizes[22];
    char stringdata0[13];
    char stringdata1[5];
    char stringdata2[42];
    char stringdata3[14];
    char stringdata4[22];
    char stringdata5[10];
    char stringdata6[10];
    char stringdata7[13];
    char stringdata8[10];
    char stringdata9[11];
    char stringdata10[13];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS_t qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS = {
    {
        QT_MOC_LITERAL(0, 12),  // "QCPErrorBars"
        QT_MOC_LITERAL(13, 4),  // "data"
        QT_MOC_LITERAL(18, 41),  // "QSharedPointer<QCPErrorBarsDa..."
        QT_MOC_LITERAL(60, 13),  // "dataPlottable"
        QT_MOC_LITERAL(74, 21),  // "QCPAbstractPlottable*"
        QT_MOC_LITERAL(96, 9),  // "errorType"
        QT_MOC_LITERAL(106, 9),  // "ErrorType"
        QT_MOC_LITERAL(116, 12),  // "whiskerWidth"
        QT_MOC_LITERAL(129, 9),  // "symbolGap"
        QT_MOC_LITERAL(139, 10),  // "etKeyError"
        QT_MOC_LITERAL(150, 12)   // "etValueError"
    },
    "QCPErrorBars",
    "data",
    "QSharedPointer<QCPErrorBarsDataContainer>",
    "dataPlottable",
    "QCPAbstractPlottable*",
    "errorType",
    "ErrorType",
    "whiskerWidth",
    "symbolGap",
    "etKeyError",
    "etValueError"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPErrorBarsENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       5,   14, // properties
       1,   39, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, 0x80000000 | 2, 0x0001510b, uint(-1), 0,
       3, 0x80000000 | 4, 0x0001510b, uint(-1), 0,
       5, 0x80000000 | 6, 0x0001510b, uint(-1), 0,
       7, QMetaType::Double, 0x00015103, uint(-1), 0,
       8, QMetaType::Double, 0x00015103, uint(-1), 0,

 // enums: name, alias, flags, count, data
       6,    6, 0x0,    2,   44,

 // enum data: key, value
       9, uint(QCPErrorBars::etKeyError),
      10, uint(QCPErrorBars::etValueError),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPErrorBars::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractPlottable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPErrorBarsENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS_t,
        // property 'data'
        QtPrivate::TypeAndForceComplete<QSharedPointer<QCPErrorBarsDataContainer>, std::true_type>,
        // property 'dataPlottable'
        QtPrivate::TypeAndForceComplete<QCPAbstractPlottable*, std::true_type>,
        // property 'errorType'
        QtPrivate::TypeAndForceComplete<ErrorType, std::true_type>,
        // property 'whiskerWidth'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'symbolGap'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPErrorBars, std::true_type>
    >,
    nullptr
} };

void QCPErrorBars::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 1:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPAbstractPlottable* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPErrorBars *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QSharedPointer<QCPErrorBarsDataContainer>*>(_v) = _t->data(); break;
        case 1: *reinterpret_cast< QCPAbstractPlottable**>(_v) = _t->dataPlottable(); break;
        case 2: *reinterpret_cast< ErrorType*>(_v) = _t->errorType(); break;
        case 3: *reinterpret_cast< double*>(_v) = _t->whiskerWidth(); break;
        case 4: *reinterpret_cast< double*>(_v) = _t->symbolGap(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPErrorBars *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setData(*reinterpret_cast< QSharedPointer<QCPErrorBarsDataContainer>*>(_v)); break;
        case 1: _t->setDataPlottable(*reinterpret_cast< QCPAbstractPlottable**>(_v)); break;
        case 2: _t->setErrorType(*reinterpret_cast< ErrorType*>(_v)); break;
        case 3: _t->setWhiskerWidth(*reinterpret_cast< double*>(_v)); break;
        case 4: _t->setSymbolGap(*reinterpret_cast< double*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
}

const QMetaObject *QCPErrorBars::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPErrorBars::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPErrorBarsENDCLASS.stringdata0))
        return static_cast<void*>(this);
    if (!strcmp(_clname, "QCPPlottableInterface1D"))
        return static_cast< QCPPlottableInterface1D*>(this);
    return QCPAbstractPlottable::qt_metacast(_clname);
}

int QCPErrorBars::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractPlottable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS = QtMocHelpers::stringData(
    "QCPItemStraightLine",
    "pen",
    "selectedPen"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS_t {
    uint offsetsAndSizes[6];
    char stringdata0[20];
    char stringdata1[4];
    char stringdata2[12];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS_t qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS = {
    {
        QT_MOC_LITERAL(0, 19),  // "QCPItemStraightLine"
        QT_MOC_LITERAL(20, 3),  // "pen"
        QT_MOC_LITERAL(24, 11)   // "selectedPen"
    },
    "QCPItemStraightLine",
    "pen",
    "selectedPen"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemStraightLineENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       2,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPen, 0x00015103, uint(-1), 0,
       2, QMetaType::QPen, 0x00015103, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemStraightLine::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemStraightLineENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS_t,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemStraightLine, std::true_type>
    >,
    nullptr
} };

void QCPItemStraightLine::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemStraightLine *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 1: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemStraightLine *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 1: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPItemStraightLine::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemStraightLine::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemStraightLineENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemStraightLine::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 2;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemLineENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemLineENDCLASS = QtMocHelpers::stringData(
    "QCPItemLine",
    "pen",
    "selectedPen",
    "head",
    "QCPLineEnding",
    "tail"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemLineENDCLASS_t {
    uint offsetsAndSizes[12];
    char stringdata0[12];
    char stringdata1[4];
    char stringdata2[12];
    char stringdata3[5];
    char stringdata4[14];
    char stringdata5[5];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemLineENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemLineENDCLASS_t qt_meta_stringdata_CLASSQCPItemLineENDCLASS = {
    {
        QT_MOC_LITERAL(0, 11),  // "QCPItemLine"
        QT_MOC_LITERAL(12, 3),  // "pen"
        QT_MOC_LITERAL(16, 11),  // "selectedPen"
        QT_MOC_LITERAL(28, 4),  // "head"
        QT_MOC_LITERAL(33, 13),  // "QCPLineEnding"
        QT_MOC_LITERAL(47, 4)   // "tail"
    },
    "QCPItemLine",
    "pen",
    "selectedPen",
    "head",
    "QCPLineEnding",
    "tail"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemLineENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       4,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPen, 0x00015103, uint(-1), 0,
       2, QMetaType::QPen, 0x00015103, uint(-1), 0,
       3, 0x80000000 | 4, 0x0001510b, uint(-1), 0,
       5, 0x80000000 | 4, 0x0001510b, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemLine::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemLineENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemLineENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemLineENDCLASS_t,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'head'
        QtPrivate::TypeAndForceComplete<QCPLineEnding, std::true_type>,
        // property 'tail'
        QtPrivate::TypeAndForceComplete<QCPLineEnding, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemLine, std::true_type>
    >,
    nullptr
} };

void QCPItemLine::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemLine *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 1: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        case 2: *reinterpret_cast< QCPLineEnding*>(_v) = _t->head(); break;
        case 3: *reinterpret_cast< QCPLineEnding*>(_v) = _t->tail(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemLine *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 1: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        case 2: _t->setHead(*reinterpret_cast< QCPLineEnding*>(_v)); break;
        case 3: _t->setTail(*reinterpret_cast< QCPLineEnding*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPItemLine::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemLine::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemLineENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemLine::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemCurveENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemCurveENDCLASS = QtMocHelpers::stringData(
    "QCPItemCurve",
    "pen",
    "selectedPen",
    "head",
    "QCPLineEnding",
    "tail"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemCurveENDCLASS_t {
    uint offsetsAndSizes[12];
    char stringdata0[13];
    char stringdata1[4];
    char stringdata2[12];
    char stringdata3[5];
    char stringdata4[14];
    char stringdata5[5];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemCurveENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemCurveENDCLASS_t qt_meta_stringdata_CLASSQCPItemCurveENDCLASS = {
    {
        QT_MOC_LITERAL(0, 12),  // "QCPItemCurve"
        QT_MOC_LITERAL(13, 3),  // "pen"
        QT_MOC_LITERAL(17, 11),  // "selectedPen"
        QT_MOC_LITERAL(29, 4),  // "head"
        QT_MOC_LITERAL(34, 13),  // "QCPLineEnding"
        QT_MOC_LITERAL(48, 4)   // "tail"
    },
    "QCPItemCurve",
    "pen",
    "selectedPen",
    "head",
    "QCPLineEnding",
    "tail"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemCurveENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       4,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPen, 0x00015103, uint(-1), 0,
       2, QMetaType::QPen, 0x00015103, uint(-1), 0,
       3, 0x80000000 | 4, 0x0001510b, uint(-1), 0,
       5, 0x80000000 | 4, 0x0001510b, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemCurve::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemCurveENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemCurveENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemCurveENDCLASS_t,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'head'
        QtPrivate::TypeAndForceComplete<QCPLineEnding, std::true_type>,
        // property 'tail'
        QtPrivate::TypeAndForceComplete<QCPLineEnding, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemCurve, std::true_type>
    >,
    nullptr
} };

void QCPItemCurve::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemCurve *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 1: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        case 2: *reinterpret_cast< QCPLineEnding*>(_v) = _t->head(); break;
        case 3: *reinterpret_cast< QCPLineEnding*>(_v) = _t->tail(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemCurve *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 1: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        case 2: _t->setHead(*reinterpret_cast< QCPLineEnding*>(_v)); break;
        case 3: _t->setTail(*reinterpret_cast< QCPLineEnding*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPItemCurve::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemCurve::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemCurveENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemCurve::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemRectENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemRectENDCLASS = QtMocHelpers::stringData(
    "QCPItemRect",
    "pen",
    "selectedPen",
    "brush",
    "selectedBrush"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemRectENDCLASS_t {
    uint offsetsAndSizes[10];
    char stringdata0[12];
    char stringdata1[4];
    char stringdata2[12];
    char stringdata3[6];
    char stringdata4[14];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemRectENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemRectENDCLASS_t qt_meta_stringdata_CLASSQCPItemRectENDCLASS = {
    {
        QT_MOC_LITERAL(0, 11),  // "QCPItemRect"
        QT_MOC_LITERAL(12, 3),  // "pen"
        QT_MOC_LITERAL(16, 11),  // "selectedPen"
        QT_MOC_LITERAL(28, 5),  // "brush"
        QT_MOC_LITERAL(34, 13)   // "selectedBrush"
    },
    "QCPItemRect",
    "pen",
    "selectedPen",
    "brush",
    "selectedBrush"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemRectENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       4,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPen, 0x00015103, uint(-1), 0,
       2, QMetaType::QPen, 0x00015103, uint(-1), 0,
       3, QMetaType::QBrush, 0x00015103, uint(-1), 0,
       4, QMetaType::QBrush, 0x00015103, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemRect::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemRectENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemRectENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemRectENDCLASS_t,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'brush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'selectedBrush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemRect, std::true_type>
    >,
    nullptr
} };

void QCPItemRect::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemRect *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 1: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        case 2: *reinterpret_cast< QBrush*>(_v) = _t->brush(); break;
        case 3: *reinterpret_cast< QBrush*>(_v) = _t->selectedBrush(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemRect *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 1: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        case 2: _t->setBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 3: _t->setSelectedBrush(*reinterpret_cast< QBrush*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPItemRect::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemRect::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemRectENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemRect::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemTextENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemTextENDCLASS = QtMocHelpers::stringData(
    "QCPItemText",
    "color",
    "selectedColor",
    "pen",
    "selectedPen",
    "brush",
    "selectedBrush",
    "font",
    "selectedFont",
    "text",
    "positionAlignment",
    "Qt::Alignment",
    "textAlignment",
    "rotation",
    "padding",
    "QMargins"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemTextENDCLASS_t {
    uint offsetsAndSizes[32];
    char stringdata0[12];
    char stringdata1[6];
    char stringdata2[14];
    char stringdata3[4];
    char stringdata4[12];
    char stringdata5[6];
    char stringdata6[14];
    char stringdata7[5];
    char stringdata8[13];
    char stringdata9[5];
    char stringdata10[18];
    char stringdata11[14];
    char stringdata12[14];
    char stringdata13[9];
    char stringdata14[8];
    char stringdata15[9];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemTextENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemTextENDCLASS_t qt_meta_stringdata_CLASSQCPItemTextENDCLASS = {
    {
        QT_MOC_LITERAL(0, 11),  // "QCPItemText"
        QT_MOC_LITERAL(12, 5),  // "color"
        QT_MOC_LITERAL(18, 13),  // "selectedColor"
        QT_MOC_LITERAL(32, 3),  // "pen"
        QT_MOC_LITERAL(36, 11),  // "selectedPen"
        QT_MOC_LITERAL(48, 5),  // "brush"
        QT_MOC_LITERAL(54, 13),  // "selectedBrush"
        QT_MOC_LITERAL(68, 4),  // "font"
        QT_MOC_LITERAL(73, 12),  // "selectedFont"
        QT_MOC_LITERAL(86, 4),  // "text"
        QT_MOC_LITERAL(91, 17),  // "positionAlignment"
        QT_MOC_LITERAL(109, 13),  // "Qt::Alignment"
        QT_MOC_LITERAL(123, 13),  // "textAlignment"
        QT_MOC_LITERAL(137, 8),  // "rotation"
        QT_MOC_LITERAL(146, 7),  // "padding"
        QT_MOC_LITERAL(154, 8)   // "QMargins"
    },
    "QCPItemText",
    "color",
    "selectedColor",
    "pen",
    "selectedPen",
    "brush",
    "selectedBrush",
    "font",
    "selectedFont",
    "text",
    "positionAlignment",
    "Qt::Alignment",
    "textAlignment",
    "rotation",
    "padding",
    "QMargins"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemTextENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
      13,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QColor, 0x00015103, uint(-1), 0,
       2, QMetaType::QColor, 0x00015103, uint(-1), 0,
       3, QMetaType::QPen, 0x00015103, uint(-1), 0,
       4, QMetaType::QPen, 0x00015103, uint(-1), 0,
       5, QMetaType::QBrush, 0x00015103, uint(-1), 0,
       6, QMetaType::QBrush, 0x00015103, uint(-1), 0,
       7, QMetaType::QFont, 0x00015103, uint(-1), 0,
       8, QMetaType::QFont, 0x00015103, uint(-1), 0,
       9, QMetaType::QString, 0x00015103, uint(-1), 0,
      10, 0x80000000 | 11, 0x0001510b, uint(-1), 0,
      12, 0x80000000 | 11, 0x0001510b, uint(-1), 0,
      13, QMetaType::Double, 0x00015103, uint(-1), 0,
      14, 0x80000000 | 15, 0x0001510b, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemText::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemTextENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemTextENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemTextENDCLASS_t,
        // property 'color'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'selectedColor'
        QtPrivate::TypeAndForceComplete<QColor, std::true_type>,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'brush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'selectedBrush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'font'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'selectedFont'
        QtPrivate::TypeAndForceComplete<QFont, std::true_type>,
        // property 'text'
        QtPrivate::TypeAndForceComplete<QString, std::true_type>,
        // property 'positionAlignment'
        QtPrivate::TypeAndForceComplete<Qt::Alignment, std::true_type>,
        // property 'textAlignment'
        QtPrivate::TypeAndForceComplete<Qt::Alignment, std::true_type>,
        // property 'rotation'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'padding'
        QtPrivate::TypeAndForceComplete<QMargins, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemText, std::true_type>
    >,
    nullptr
} };

void QCPItemText::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemText *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QColor*>(_v) = _t->color(); break;
        case 1: *reinterpret_cast< QColor*>(_v) = _t->selectedColor(); break;
        case 2: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 3: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        case 4: *reinterpret_cast< QBrush*>(_v) = _t->brush(); break;
        case 5: *reinterpret_cast< QBrush*>(_v) = _t->selectedBrush(); break;
        case 6: *reinterpret_cast< QFont*>(_v) = _t->font(); break;
        case 7: *reinterpret_cast< QFont*>(_v) = _t->selectedFont(); break;
        case 8: *reinterpret_cast< QString*>(_v) = _t->text(); break;
        case 9: *reinterpret_cast< Qt::Alignment*>(_v) = _t->positionAlignment(); break;
        case 10: *reinterpret_cast< Qt::Alignment*>(_v) = _t->textAlignment(); break;
        case 11: *reinterpret_cast< double*>(_v) = _t->rotation(); break;
        case 12: *reinterpret_cast< QMargins*>(_v) = _t->padding(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemText *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setColor(*reinterpret_cast< QColor*>(_v)); break;
        case 1: _t->setSelectedColor(*reinterpret_cast< QColor*>(_v)); break;
        case 2: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 3: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        case 4: _t->setBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 5: _t->setSelectedBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 6: _t->setFont(*reinterpret_cast< QFont*>(_v)); break;
        case 7: _t->setSelectedFont(*reinterpret_cast< QFont*>(_v)); break;
        case 8: _t->setText(*reinterpret_cast< QString*>(_v)); break;
        case 9: _t->setPositionAlignment(*reinterpret_cast< Qt::Alignment*>(_v)); break;
        case 10: _t->setTextAlignment(*reinterpret_cast< Qt::Alignment*>(_v)); break;
        case 11: _t->setRotation(*reinterpret_cast< double*>(_v)); break;
        case 12: _t->setPadding(*reinterpret_cast< QMargins*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPItemText::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemText::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemTextENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemText::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 13;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS = QtMocHelpers::stringData(
    "QCPItemEllipse",
    "pen",
    "selectedPen",
    "brush",
    "selectedBrush"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS_t {
    uint offsetsAndSizes[10];
    char stringdata0[15];
    char stringdata1[4];
    char stringdata2[12];
    char stringdata3[6];
    char stringdata4[14];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS_t qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS = {
    {
        QT_MOC_LITERAL(0, 14),  // "QCPItemEllipse"
        QT_MOC_LITERAL(15, 3),  // "pen"
        QT_MOC_LITERAL(19, 11),  // "selectedPen"
        QT_MOC_LITERAL(31, 5),  // "brush"
        QT_MOC_LITERAL(37, 13)   // "selectedBrush"
    },
    "QCPItemEllipse",
    "pen",
    "selectedPen",
    "brush",
    "selectedBrush"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemEllipseENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       4,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPen, 0x00015103, uint(-1), 0,
       2, QMetaType::QPen, 0x00015103, uint(-1), 0,
       3, QMetaType::QBrush, 0x00015103, uint(-1), 0,
       4, QMetaType::QBrush, 0x00015103, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemEllipse::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemEllipseENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS_t,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'brush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'selectedBrush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemEllipse, std::true_type>
    >,
    nullptr
} };

void QCPItemEllipse::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemEllipse *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 1: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        case 2: *reinterpret_cast< QBrush*>(_v) = _t->brush(); break;
        case 3: *reinterpret_cast< QBrush*>(_v) = _t->selectedBrush(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemEllipse *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 1: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        case 2: _t->setBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 3: _t->setSelectedBrush(*reinterpret_cast< QBrush*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPItemEllipse::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemEllipse::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemEllipseENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemEllipse::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS = QtMocHelpers::stringData(
    "QCPItemPixmap",
    "pixmap",
    "scaled",
    "aspectRatioMode",
    "Qt::AspectRatioMode",
    "transformationMode",
    "Qt::TransformationMode",
    "pen",
    "selectedPen"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS_t {
    uint offsetsAndSizes[18];
    char stringdata0[14];
    char stringdata1[7];
    char stringdata2[7];
    char stringdata3[16];
    char stringdata4[20];
    char stringdata5[19];
    char stringdata6[23];
    char stringdata7[4];
    char stringdata8[12];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS_t qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS = {
    {
        QT_MOC_LITERAL(0, 13),  // "QCPItemPixmap"
        QT_MOC_LITERAL(14, 6),  // "pixmap"
        QT_MOC_LITERAL(21, 6),  // "scaled"
        QT_MOC_LITERAL(28, 15),  // "aspectRatioMode"
        QT_MOC_LITERAL(44, 19),  // "Qt::AspectRatioMode"
        QT_MOC_LITERAL(64, 18),  // "transformationMode"
        QT_MOC_LITERAL(83, 22),  // "Qt::TransformationMode"
        QT_MOC_LITERAL(106, 3),  // "pen"
        QT_MOC_LITERAL(110, 11)   // "selectedPen"
    },
    "QCPItemPixmap",
    "pixmap",
    "scaled",
    "aspectRatioMode",
    "Qt::AspectRatioMode",
    "transformationMode",
    "Qt::TransformationMode",
    "pen",
    "selectedPen"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemPixmapENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       6,   14, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPixmap, 0x00015103, uint(-1), 0,
       2, QMetaType::Bool, 0x00015103, uint(-1), 0,
       3, 0x80000000 | 4, 0x00015009, uint(-1), 0,
       5, 0x80000000 | 6, 0x00015009, uint(-1), 0,
       7, QMetaType::QPen, 0x00015103, uint(-1), 0,
       8, QMetaType::QPen, 0x00015103, uint(-1), 0,

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemPixmap::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemPixmapENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS_t,
        // property 'pixmap'
        QtPrivate::TypeAndForceComplete<QPixmap, std::true_type>,
        // property 'scaled'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // property 'aspectRatioMode'
        QtPrivate::TypeAndForceComplete<Qt::AspectRatioMode, std::true_type>,
        // property 'transformationMode'
        QtPrivate::TypeAndForceComplete<Qt::TransformationMode, std::true_type>,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemPixmap, std::true_type>
    >,
    nullptr
} };

void QCPItemPixmap::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemPixmap *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPixmap*>(_v) = _t->pixmap(); break;
        case 1: *reinterpret_cast< bool*>(_v) = _t->scaled(); break;
        case 2: *reinterpret_cast< Qt::AspectRatioMode*>(_v) = _t->aspectRatioMode(); break;
        case 3: *reinterpret_cast< Qt::TransformationMode*>(_v) = _t->transformationMode(); break;
        case 4: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 5: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemPixmap *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setPixmap(*reinterpret_cast< QPixmap*>(_v)); break;
        case 1: _t->setScaled(*reinterpret_cast< bool*>(_v)); break;
        case 4: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 5: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPItemPixmap::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemPixmap::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemPixmapENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemPixmap::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 6;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemTracerENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemTracerENDCLASS = QtMocHelpers::stringData(
    "QCPItemTracer",
    "pen",
    "selectedPen",
    "brush",
    "selectedBrush",
    "size",
    "style",
    "TracerStyle",
    "graph",
    "QCPGraph*",
    "graphKey",
    "interpolating",
    "tsNone",
    "tsPlus",
    "tsCrosshair",
    "tsCircle",
    "tsSquare"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemTracerENDCLASS_t {
    uint offsetsAndSizes[34];
    char stringdata0[14];
    char stringdata1[4];
    char stringdata2[12];
    char stringdata3[6];
    char stringdata4[14];
    char stringdata5[5];
    char stringdata6[6];
    char stringdata7[12];
    char stringdata8[6];
    char stringdata9[10];
    char stringdata10[9];
    char stringdata11[14];
    char stringdata12[7];
    char stringdata13[7];
    char stringdata14[12];
    char stringdata15[9];
    char stringdata16[9];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemTracerENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemTracerENDCLASS_t qt_meta_stringdata_CLASSQCPItemTracerENDCLASS = {
    {
        QT_MOC_LITERAL(0, 13),  // "QCPItemTracer"
        QT_MOC_LITERAL(14, 3),  // "pen"
        QT_MOC_LITERAL(18, 11),  // "selectedPen"
        QT_MOC_LITERAL(30, 5),  // "brush"
        QT_MOC_LITERAL(36, 13),  // "selectedBrush"
        QT_MOC_LITERAL(50, 4),  // "size"
        QT_MOC_LITERAL(55, 5),  // "style"
        QT_MOC_LITERAL(61, 11),  // "TracerStyle"
        QT_MOC_LITERAL(73, 5),  // "graph"
        QT_MOC_LITERAL(79, 9),  // "QCPGraph*"
        QT_MOC_LITERAL(89, 8),  // "graphKey"
        QT_MOC_LITERAL(98, 13),  // "interpolating"
        QT_MOC_LITERAL(112, 6),  // "tsNone"
        QT_MOC_LITERAL(119, 6),  // "tsPlus"
        QT_MOC_LITERAL(126, 11),  // "tsCrosshair"
        QT_MOC_LITERAL(138, 8),  // "tsCircle"
        QT_MOC_LITERAL(147, 8)   // "tsSquare"
    },
    "QCPItemTracer",
    "pen",
    "selectedPen",
    "brush",
    "selectedBrush",
    "size",
    "style",
    "TracerStyle",
    "graph",
    "QCPGraph*",
    "graphKey",
    "interpolating",
    "tsNone",
    "tsPlus",
    "tsCrosshair",
    "tsCircle",
    "tsSquare"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemTracerENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       9,   14, // properties
       1,   59, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPen, 0x00015103, uint(-1), 0,
       2, QMetaType::QPen, 0x00015103, uint(-1), 0,
       3, QMetaType::QBrush, 0x00015103, uint(-1), 0,
       4, QMetaType::QBrush, 0x00015103, uint(-1), 0,
       5, QMetaType::Double, 0x00015103, uint(-1), 0,
       6, 0x80000000 | 7, 0x0001510b, uint(-1), 0,
       8, 0x80000000 | 9, 0x0001510b, uint(-1), 0,
      10, QMetaType::Double, 0x00015103, uint(-1), 0,
      11, QMetaType::Bool, 0x00015103, uint(-1), 0,

 // enums: name, alias, flags, count, data
       7,    7, 0x0,    5,   64,

 // enum data: key, value
      12, uint(QCPItemTracer::tsNone),
      13, uint(QCPItemTracer::tsPlus),
      14, uint(QCPItemTracer::tsCrosshair),
      15, uint(QCPItemTracer::tsCircle),
      16, uint(QCPItemTracer::tsSquare),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemTracer::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemTracerENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemTracerENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemTracerENDCLASS_t,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'brush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'selectedBrush'
        QtPrivate::TypeAndForceComplete<QBrush, std::true_type>,
        // property 'size'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'style'
        QtPrivate::TypeAndForceComplete<TracerStyle, std::true_type>,
        // property 'graph'
        QtPrivate::TypeAndForceComplete<QCPGraph*, std::true_type>,
        // property 'graphKey'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'interpolating'
        QtPrivate::TypeAndForceComplete<bool, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemTracer, std::true_type>
    >,
    nullptr
} };

void QCPItemTracer::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::RegisterPropertyMetaType) {
        switch (_id) {
        default: *reinterpret_cast<int*>(_a[0]) = -1; break;
        case 6:
            *reinterpret_cast<int*>(_a[0]) = qRegisterMetaType< QCPGraph* >(); break;
        }
    } else if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemTracer *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 1: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        case 2: *reinterpret_cast< QBrush*>(_v) = _t->brush(); break;
        case 3: *reinterpret_cast< QBrush*>(_v) = _t->selectedBrush(); break;
        case 4: *reinterpret_cast< double*>(_v) = _t->size(); break;
        case 5: *reinterpret_cast< TracerStyle*>(_v) = _t->style(); break;
        case 6: *reinterpret_cast< QCPGraph**>(_v) = _t->graph(); break;
        case 7: *reinterpret_cast< double*>(_v) = _t->graphKey(); break;
        case 8: *reinterpret_cast< bool*>(_v) = _t->interpolating(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemTracer *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 1: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        case 2: _t->setBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 3: _t->setSelectedBrush(*reinterpret_cast< QBrush*>(_v)); break;
        case 4: _t->setSize(*reinterpret_cast< double*>(_v)); break;
        case 5: _t->setStyle(*reinterpret_cast< TracerStyle*>(_v)); break;
        case 6: _t->setGraph(*reinterpret_cast< QCPGraph**>(_v)); break;
        case 7: _t->setGraphKey(*reinterpret_cast< double*>(_v)); break;
        case 8: _t->setInterpolating(*reinterpret_cast< bool*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
}

const QMetaObject *QCPItemTracer::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemTracer::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemTracerENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemTracer::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 9;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPItemBracketENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPItemBracketENDCLASS = QtMocHelpers::stringData(
    "QCPItemBracket",
    "pen",
    "selectedPen",
    "length",
    "style",
    "BracketStyle",
    "bsSquare",
    "bsRound",
    "bsCurly",
    "bsCalligraphic"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPItemBracketENDCLASS_t {
    uint offsetsAndSizes[20];
    char stringdata0[15];
    char stringdata1[4];
    char stringdata2[12];
    char stringdata3[7];
    char stringdata4[6];
    char stringdata5[13];
    char stringdata6[9];
    char stringdata7[8];
    char stringdata8[8];
    char stringdata9[15];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPItemBracketENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPItemBracketENDCLASS_t qt_meta_stringdata_CLASSQCPItemBracketENDCLASS = {
    {
        QT_MOC_LITERAL(0, 14),  // "QCPItemBracket"
        QT_MOC_LITERAL(15, 3),  // "pen"
        QT_MOC_LITERAL(19, 11),  // "selectedPen"
        QT_MOC_LITERAL(31, 6),  // "length"
        QT_MOC_LITERAL(38, 5),  // "style"
        QT_MOC_LITERAL(44, 12),  // "BracketStyle"
        QT_MOC_LITERAL(57, 8),  // "bsSquare"
        QT_MOC_LITERAL(66, 7),  // "bsRound"
        QT_MOC_LITERAL(74, 7),  // "bsCurly"
        QT_MOC_LITERAL(82, 14)   // "bsCalligraphic"
    },
    "QCPItemBracket",
    "pen",
    "selectedPen",
    "length",
    "style",
    "BracketStyle",
    "bsSquare",
    "bsRound",
    "bsCurly",
    "bsCalligraphic"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPItemBracketENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       4,   14, // properties
       1,   34, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // properties: name, type, flags
       1, QMetaType::QPen, 0x00015103, uint(-1), 0,
       2, QMetaType::QPen, 0x00015103, uint(-1), 0,
       3, QMetaType::Double, 0x00015103, uint(-1), 0,
       4, 0x80000000 | 5, 0x0001510b, uint(-1), 0,

 // enums: name, alias, flags, count, data
       5,    5, 0x0,    4,   39,

 // enum data: key, value
       6, uint(QCPItemBracket::bsSquare),
       7, uint(QCPItemBracket::bsRound),
       8, uint(QCPItemBracket::bsCurly),
       9, uint(QCPItemBracket::bsCalligraphic),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPItemBracket::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPItemBracketENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPItemBracketENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPItemBracketENDCLASS_t,
        // property 'pen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'selectedPen'
        QtPrivate::TypeAndForceComplete<QPen, std::true_type>,
        // property 'length'
        QtPrivate::TypeAndForceComplete<double, std::true_type>,
        // property 'style'
        QtPrivate::TypeAndForceComplete<BracketStyle, std::true_type>,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPItemBracket, std::true_type>
    >,
    nullptr
} };

void QCPItemBracket::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
if (_c == QMetaObject::ReadProperty) {
        auto *_t = static_cast<QCPItemBracket *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: *reinterpret_cast< QPen*>(_v) = _t->pen(); break;
        case 1: *reinterpret_cast< QPen*>(_v) = _t->selectedPen(); break;
        case 2: *reinterpret_cast< double*>(_v) = _t->length(); break;
        case 3: *reinterpret_cast< BracketStyle*>(_v) = _t->style(); break;
        default: break;
        }
    } else if (_c == QMetaObject::WriteProperty) {
        auto *_t = static_cast<QCPItemBracket *>(_o);
        (void)_t;
        void *_v = _a[0];
        switch (_id) {
        case 0: _t->setPen(*reinterpret_cast< QPen*>(_v)); break;
        case 1: _t->setSelectedPen(*reinterpret_cast< QPen*>(_v)); break;
        case 2: _t->setLength(*reinterpret_cast< double*>(_v)); break;
        case 3: _t->setStyle(*reinterpret_cast< BracketStyle*>(_v)); break;
        default: break;
        }
    } else if (_c == QMetaObject::ResetProperty) {
    } else if (_c == QMetaObject::BindableProperty) {
    }
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPItemBracket::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPItemBracket::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPItemBracketENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractItem::qt_metacast(_clname);
}

int QCPItemBracket::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractItem::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::ReadProperty || _c == QMetaObject::WriteProperty
            || _c == QMetaObject::ResetProperty || _c == QMetaObject::BindableProperty
            || _c == QMetaObject::RegisterPropertyMetaType) {
        qt_static_metacall(this, _c, _id, _a);
        _id -= 4;
    }
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS = QtMocHelpers::stringData(
    "QCPPolarAxisRadial",
    "rangeChanged",
    "",
    "QCPRange",
    "newRange",
    "oldRange",
    "scaleTypeChanged",
    "QCPPolarAxisRadial::ScaleType",
    "scaleType",
    "selectionChanged",
    "QCPPolarAxisRadial::SelectableParts",
    "parts",
    "selectableChanged",
    "setScaleType",
    "type",
    "setRange",
    "range",
    "setSelectableParts",
    "selectableParts",
    "setSelectedParts",
    "selectedParts",
    "AngleReference",
    "arAbsolute",
    "arAngularAxis",
    "ScaleType",
    "stLinear",
    "stLogarithmic",
    "SelectablePart",
    "spNone",
    "spAxis",
    "spTickLabels",
    "spAxisLabel",
    "SelectableParts",
    "LabelMode",
    "lmUpright",
    "lmRotated"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS_t {
    uint offsetsAndSizes[72];
    char stringdata0[19];
    char stringdata1[13];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[9];
    char stringdata5[9];
    char stringdata6[17];
    char stringdata7[30];
    char stringdata8[10];
    char stringdata9[17];
    char stringdata10[36];
    char stringdata11[6];
    char stringdata12[18];
    char stringdata13[13];
    char stringdata14[5];
    char stringdata15[9];
    char stringdata16[6];
    char stringdata17[19];
    char stringdata18[16];
    char stringdata19[17];
    char stringdata20[14];
    char stringdata21[15];
    char stringdata22[11];
    char stringdata23[14];
    char stringdata24[10];
    char stringdata25[9];
    char stringdata26[14];
    char stringdata27[15];
    char stringdata28[7];
    char stringdata29[7];
    char stringdata30[13];
    char stringdata31[12];
    char stringdata32[16];
    char stringdata33[10];
    char stringdata34[10];
    char stringdata35[10];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS_t qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS = {
    {
        QT_MOC_LITERAL(0, 18),  // "QCPPolarAxisRadial"
        QT_MOC_LITERAL(19, 12),  // "rangeChanged"
        QT_MOC_LITERAL(32, 0),  // ""
        QT_MOC_LITERAL(33, 8),  // "QCPRange"
        QT_MOC_LITERAL(42, 8),  // "newRange"
        QT_MOC_LITERAL(51, 8),  // "oldRange"
        QT_MOC_LITERAL(60, 16),  // "scaleTypeChanged"
        QT_MOC_LITERAL(77, 29),  // "QCPPolarAxisRadial::ScaleType"
        QT_MOC_LITERAL(107, 9),  // "scaleType"
        QT_MOC_LITERAL(117, 16),  // "selectionChanged"
        QT_MOC_LITERAL(134, 35),  // "QCPPolarAxisRadial::Selectabl..."
        QT_MOC_LITERAL(170, 5),  // "parts"
        QT_MOC_LITERAL(176, 17),  // "selectableChanged"
        QT_MOC_LITERAL(194, 12),  // "setScaleType"
        QT_MOC_LITERAL(207, 4),  // "type"
        QT_MOC_LITERAL(212, 8),  // "setRange"
        QT_MOC_LITERAL(221, 5),  // "range"
        QT_MOC_LITERAL(227, 18),  // "setSelectableParts"
        QT_MOC_LITERAL(246, 15),  // "selectableParts"
        QT_MOC_LITERAL(262, 16),  // "setSelectedParts"
        QT_MOC_LITERAL(279, 13),  // "selectedParts"
        QT_MOC_LITERAL(293, 14),  // "AngleReference"
        QT_MOC_LITERAL(308, 10),  // "arAbsolute"
        QT_MOC_LITERAL(319, 13),  // "arAngularAxis"
        QT_MOC_LITERAL(333, 9),  // "ScaleType"
        QT_MOC_LITERAL(343, 8),  // "stLinear"
        QT_MOC_LITERAL(352, 13),  // "stLogarithmic"
        QT_MOC_LITERAL(366, 14),  // "SelectablePart"
        QT_MOC_LITERAL(381, 6),  // "spNone"
        QT_MOC_LITERAL(388, 6),  // "spAxis"
        QT_MOC_LITERAL(395, 12),  // "spTickLabels"
        QT_MOC_LITERAL(408, 11),  // "spAxisLabel"
        QT_MOC_LITERAL(420, 15),  // "SelectableParts"
        QT_MOC_LITERAL(436, 9),  // "LabelMode"
        QT_MOC_LITERAL(446, 9),  // "lmUpright"
        QT_MOC_LITERAL(456, 9)   // "lmRotated"
    },
    "QCPPolarAxisRadial",
    "rangeChanged",
    "",
    "QCPRange",
    "newRange",
    "oldRange",
    "scaleTypeChanged",
    "QCPPolarAxisRadial::ScaleType",
    "scaleType",
    "selectionChanged",
    "QCPPolarAxisRadial::SelectableParts",
    "parts",
    "selectableChanged",
    "setScaleType",
    "type",
    "setRange",
    "range",
    "setSelectableParts",
    "selectableParts",
    "setSelectedParts",
    "selectedParts",
    "AngleReference",
    "arAbsolute",
    "arAngularAxis",
    "ScaleType",
    "stLinear",
    "stLogarithmic",
    "SelectablePart",
    "spNone",
    "spAxis",
    "spTickLabels",
    "spAxisLabel",
    "SelectableParts",
    "LabelMode",
    "lmUpright",
    "lmRotated"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPPolarAxisRadialENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       9,   14, // methods
       0,    0, // properties
       5,   97, // enums/sets
       0,    0, // constructors
       0,       // flags
       5,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   68,    2, 0x06,    1 /* Public */,
       1,    2,   71,    2, 0x06,    3 /* Public */,
       6,    1,   76,    2, 0x06,    6 /* Public */,
       9,    1,   79,    2, 0x06,    8 /* Public */,
      12,    1,   82,    2, 0x06,   10 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
      13,    1,   85,    2, 0x0a,   12 /* Public */,
      15,    1,   88,    2, 0x0a,   14 /* Public */,
      17,    1,   91,    2, 0x0a,   16 /* Public */,
      19,    1,   94,    2, 0x0a,   18 /* Public */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 3, 0x80000000 | 3,    4,    5,
    QMetaType::Void, 0x80000000 | 7,    8,
    QMetaType::Void, 0x80000000 | 10,   11,
    QMetaType::Void, 0x80000000 | 10,   11,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 7,   14,
    QMetaType::Void, 0x80000000 | 3,   16,
    QMetaType::Void, 0x80000000 | 10,   18,
    QMetaType::Void, 0x80000000 | 10,   20,

 // enums: name, alias, flags, count, data
      21,   21, 0x0,    2,  122,
      24,   24, 0x0,    2,  126,
      27,   27, 0x0,    4,  130,
      32,   27, 0x1,    4,  138,
      33,   33, 0x0,    2,  146,

 // enum data: key, value
      22, uint(QCPPolarAxisRadial::arAbsolute),
      23, uint(QCPPolarAxisRadial::arAngularAxis),
      25, uint(QCPPolarAxisRadial::stLinear),
      26, uint(QCPPolarAxisRadial::stLogarithmic),
      28, uint(QCPPolarAxisRadial::spNone),
      29, uint(QCPPolarAxisRadial::spAxis),
      30, uint(QCPPolarAxisRadial::spTickLabels),
      31, uint(QCPPolarAxisRadial::spAxisLabel),
      28, uint(QCPPolarAxisRadial::spNone),
      29, uint(QCPPolarAxisRadial::spAxis),
      30, uint(QCPPolarAxisRadial::spTickLabels),
      31, uint(QCPPolarAxisRadial::spAxisLabel),
      34, uint(QCPPolarAxisRadial::lmUpright),
      35, uint(QCPPolarAxisRadial::lmRotated),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPPolarAxisRadial::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPPolarAxisRadialENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPPolarAxisRadial, std::true_type>,
        // method 'rangeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'rangeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'scaleTypeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPPolarAxisRadial::ScaleType, std::false_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPPolarAxisRadial::SelectableParts &, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPPolarAxisRadial::SelectableParts &, std::false_type>,
        // method 'setScaleType'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPPolarAxisRadial::ScaleType, std::false_type>,
        // method 'setRange'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'setSelectableParts'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPPolarAxisRadial::SelectableParts &, std::false_type>,
        // method 'setSelectedParts'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPPolarAxisRadial::SelectableParts &, std::false_type>
    >,
    nullptr
} };

void QCPPolarAxisRadial::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPPolarAxisRadial *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->rangeChanged((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 1: _t->rangeChanged((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[2]))); break;
        case 2: _t->scaleTypeChanged((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisRadial::ScaleType>>(_a[1]))); break;
        case 3: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisRadial::SelectableParts>>(_a[1]))); break;
        case 4: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisRadial::SelectableParts>>(_a[1]))); break;
        case 5: _t->setScaleType((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisRadial::ScaleType>>(_a[1]))); break;
        case 6: _t->setRange((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 7: _t->setSelectableParts((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisRadial::SelectableParts>>(_a[1]))); break;
        case 8: _t->setSelectedParts((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisRadial::SelectableParts>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        switch (_id) {
        default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
        case 2:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPPolarAxisRadial::ScaleType >(); break;
            }
            break;
        case 5:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPPolarAxisRadial::ScaleType >(); break;
            }
            break;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPPolarAxisRadial::*)(const QCPRange & );
            if (_t _q_method = &QCPPolarAxisRadial::rangeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPPolarAxisRadial::*)(const QCPRange & , const QCPRange & );
            if (_t _q_method = &QCPPolarAxisRadial::rangeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPPolarAxisRadial::*)(QCPPolarAxisRadial::ScaleType );
            if (_t _q_method = &QCPPolarAxisRadial::scaleTypeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
        {
            using _t = void (QCPPolarAxisRadial::*)(const QCPPolarAxisRadial::SelectableParts & );
            if (_t _q_method = &QCPPolarAxisRadial::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 3;
                return;
            }
        }
        {
            using _t = void (QCPPolarAxisRadial::*)(const QCPPolarAxisRadial::SelectableParts & );
            if (_t _q_method = &QCPPolarAxisRadial::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 4;
                return;
            }
        }
    }
}

const QMetaObject *QCPPolarAxisRadial::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPPolarAxisRadial::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPPolarAxisRadialENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPPolarAxisRadial::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 9)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 9;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 9)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 9;
    }
    return _id;
}

// SIGNAL 0
void QCPPolarAxisRadial::rangeChanged(const QCPRange & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPPolarAxisRadial::rangeChanged(const QCPRange & _t1, const QCPRange & _t2)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPPolarAxisRadial::scaleTypeChanged(QCPPolarAxisRadial::ScaleType _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}

// SIGNAL 3
void QCPPolarAxisRadial::selectionChanged(const QCPPolarAxisRadial::SelectableParts & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 3, _a);
}

// SIGNAL 4
void QCPPolarAxisRadial::selectableChanged(const QCPPolarAxisRadial::SelectableParts & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 4, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS = QtMocHelpers::stringData(
    "QCPPolarAxisAngular",
    "rangeChanged",
    "",
    "QCPRange",
    "newRange",
    "oldRange",
    "selectionChanged",
    "QCPPolarAxisAngular::SelectableParts",
    "parts",
    "selectableChanged",
    "setRange",
    "range",
    "setSelectableParts",
    "selectableParts",
    "setSelectedParts",
    "selectedParts",
    "SelectablePart",
    "spNone",
    "spAxis",
    "spTickLabels",
    "spAxisLabel",
    "SelectableParts",
    "LabelMode",
    "lmUpright",
    "lmRotated"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS_t {
    uint offsetsAndSizes[50];
    char stringdata0[20];
    char stringdata1[13];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[9];
    char stringdata5[9];
    char stringdata6[17];
    char stringdata7[37];
    char stringdata8[6];
    char stringdata9[18];
    char stringdata10[9];
    char stringdata11[6];
    char stringdata12[19];
    char stringdata13[16];
    char stringdata14[17];
    char stringdata15[14];
    char stringdata16[15];
    char stringdata17[7];
    char stringdata18[7];
    char stringdata19[13];
    char stringdata20[12];
    char stringdata21[16];
    char stringdata22[10];
    char stringdata23[10];
    char stringdata24[10];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS_t qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS = {
    {
        QT_MOC_LITERAL(0, 19),  // "QCPPolarAxisAngular"
        QT_MOC_LITERAL(20, 12),  // "rangeChanged"
        QT_MOC_LITERAL(33, 0),  // ""
        QT_MOC_LITERAL(34, 8),  // "QCPRange"
        QT_MOC_LITERAL(43, 8),  // "newRange"
        QT_MOC_LITERAL(52, 8),  // "oldRange"
        QT_MOC_LITERAL(61, 16),  // "selectionChanged"
        QT_MOC_LITERAL(78, 36),  // "QCPPolarAxisAngular::Selectab..."
        QT_MOC_LITERAL(115, 5),  // "parts"
        QT_MOC_LITERAL(121, 17),  // "selectableChanged"
        QT_MOC_LITERAL(139, 8),  // "setRange"
        QT_MOC_LITERAL(148, 5),  // "range"
        QT_MOC_LITERAL(154, 18),  // "setSelectableParts"
        QT_MOC_LITERAL(173, 15),  // "selectableParts"
        QT_MOC_LITERAL(189, 16),  // "setSelectedParts"
        QT_MOC_LITERAL(206, 13),  // "selectedParts"
        QT_MOC_LITERAL(220, 14),  // "SelectablePart"
        QT_MOC_LITERAL(235, 6),  // "spNone"
        QT_MOC_LITERAL(242, 6),  // "spAxis"
        QT_MOC_LITERAL(249, 12),  // "spTickLabels"
        QT_MOC_LITERAL(262, 11),  // "spAxisLabel"
        QT_MOC_LITERAL(274, 15),  // "SelectableParts"
        QT_MOC_LITERAL(290, 9),  // "LabelMode"
        QT_MOC_LITERAL(300, 9),  // "lmUpright"
        QT_MOC_LITERAL(310, 9)   // "lmRotated"
    },
    "QCPPolarAxisAngular",
    "rangeChanged",
    "",
    "QCPRange",
    "newRange",
    "oldRange",
    "selectionChanged",
    "QCPPolarAxisAngular::SelectableParts",
    "parts",
    "selectableChanged",
    "setRange",
    "range",
    "setSelectableParts",
    "selectableParts",
    "setSelectedParts",
    "selectedParts",
    "SelectablePart",
    "spNone",
    "spAxis",
    "spTickLabels",
    "spAxisLabel",
    "SelectableParts",
    "LabelMode",
    "lmUpright",
    "lmRotated"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPPolarAxisAngularENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       7,   14, // methods
       0,    0, // properties
       3,   79, // enums/sets
       0,    0, // constructors
       0,       // flags
       4,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   56,    2, 0x06,    1 /* Public */,
       1,    2,   59,    2, 0x06,    3 /* Public */,
       6,    1,   64,    2, 0x06,    6 /* Public */,
       9,    1,   67,    2, 0x06,    8 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
      10,    1,   70,    2, 0x0a,   10 /* Public */,
      12,    1,   73,    2, 0x0a,   12 /* Public */,
      14,    1,   76,    2, 0x0a,   14 /* Public */,

 // signals: parameters
    QMetaType::Void, 0x80000000 | 3,    4,
    QMetaType::Void, 0x80000000 | 3, 0x80000000 | 3,    4,    5,
    QMetaType::Void, 0x80000000 | 7,    8,
    QMetaType::Void, 0x80000000 | 7,    8,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 3,   11,
    QMetaType::Void, 0x80000000 | 7,   13,
    QMetaType::Void, 0x80000000 | 7,   15,

 // enums: name, alias, flags, count, data
      16,   16, 0x0,    4,   94,
      21,   16, 0x1,    4,  102,
      22,   22, 0x0,    2,  110,

 // enum data: key, value
      17, uint(QCPPolarAxisAngular::spNone),
      18, uint(QCPPolarAxisAngular::spAxis),
      19, uint(QCPPolarAxisAngular::spTickLabels),
      20, uint(QCPPolarAxisAngular::spAxisLabel),
      17, uint(QCPPolarAxisAngular::spNone),
      18, uint(QCPPolarAxisAngular::spAxis),
      19, uint(QCPPolarAxisAngular::spTickLabels),
      20, uint(QCPPolarAxisAngular::spAxisLabel),
      23, uint(QCPPolarAxisAngular::lmUpright),
      24, uint(QCPPolarAxisAngular::lmRotated),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPPolarAxisAngular::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayoutElement::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPPolarAxisAngularENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPPolarAxisAngular, std::true_type>,
        // method 'rangeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'rangeChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPPolarAxisAngular::SelectableParts &, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPPolarAxisAngular::SelectableParts &, std::false_type>,
        // method 'setRange'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPRange &, std::false_type>,
        // method 'setSelectableParts'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPPolarAxisAngular::SelectableParts &, std::false_type>,
        // method 'setSelectedParts'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPPolarAxisAngular::SelectableParts &, std::false_type>
    >,
    nullptr
} };

void QCPPolarAxisAngular::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPPolarAxisAngular *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->rangeChanged((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 1: _t->rangeChanged((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1])),(*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[2]))); break;
        case 2: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisAngular::SelectableParts>>(_a[1]))); break;
        case 3: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisAngular::SelectableParts>>(_a[1]))); break;
        case 4: _t->setRange((*reinterpret_cast< std::add_pointer_t<QCPRange>>(_a[1]))); break;
        case 5: _t->setSelectableParts((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisAngular::SelectableParts>>(_a[1]))); break;
        case 6: _t->setSelectedParts((*reinterpret_cast< std::add_pointer_t<QCPPolarAxisAngular::SelectableParts>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPPolarAxisAngular::*)(const QCPRange & );
            if (_t _q_method = &QCPPolarAxisAngular::rangeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPPolarAxisAngular::*)(const QCPRange & , const QCPRange & );
            if (_t _q_method = &QCPPolarAxisAngular::rangeChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPPolarAxisAngular::*)(const QCPPolarAxisAngular::SelectableParts & );
            if (_t _q_method = &QCPPolarAxisAngular::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
        {
            using _t = void (QCPPolarAxisAngular::*)(const QCPPolarAxisAngular::SelectableParts & );
            if (_t _q_method = &QCPPolarAxisAngular::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 3;
                return;
            }
        }
    }
}

const QMetaObject *QCPPolarAxisAngular::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPPolarAxisAngular::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPPolarAxisAngularENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayoutElement::qt_metacast(_clname);
}

int QCPPolarAxisAngular::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayoutElement::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 7)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 7;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 7)
            *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType();
        _id -= 7;
    }
    return _id;
}

// SIGNAL 0
void QCPPolarAxisAngular::rangeChanged(const QCPRange & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPPolarAxisAngular::rangeChanged(const QCPRange & _t1, const QCPRange & _t2)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))), const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t2))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPPolarAxisAngular::selectionChanged(const QCPPolarAxisAngular::SelectableParts & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}

// SIGNAL 3
void QCPPolarAxisAngular::selectableChanged(const QCPPolarAxisAngular::SelectableParts & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 3, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPPolarGridENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPPolarGridENDCLASS = QtMocHelpers::stringData(
    "QCPPolarGrid",
    "GridType",
    "gtAngular",
    "gtRadial",
    "gtAll",
    "gtNone",
    "GridTypes"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPPolarGridENDCLASS_t {
    uint offsetsAndSizes[14];
    char stringdata0[13];
    char stringdata1[9];
    char stringdata2[10];
    char stringdata3[9];
    char stringdata4[6];
    char stringdata5[7];
    char stringdata6[10];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPPolarGridENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPPolarGridENDCLASS_t qt_meta_stringdata_CLASSQCPPolarGridENDCLASS = {
    {
        QT_MOC_LITERAL(0, 12),  // "QCPPolarGrid"
        QT_MOC_LITERAL(13, 8),  // "GridType"
        QT_MOC_LITERAL(22, 9),  // "gtAngular"
        QT_MOC_LITERAL(32, 8),  // "gtRadial"
        QT_MOC_LITERAL(41, 5),  // "gtAll"
        QT_MOC_LITERAL(47, 6),  // "gtNone"
        QT_MOC_LITERAL(54, 9)   // "GridTypes"
    },
    "QCPPolarGrid",
    "GridType",
    "gtAngular",
    "gtRadial",
    "gtAll",
    "gtNone",
    "GridTypes"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPPolarGridENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       2,   14, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    4,   24,
       6,    1, 0x1,    4,   32,

 // enum data: key, value
       2, uint(QCPPolarGrid::gtAngular),
       3, uint(QCPPolarGrid::gtRadial),
       4, uint(QCPPolarGrid::gtAll),
       5, uint(QCPPolarGrid::gtNone),
       2, uint(QCPPolarGrid::gtAngular),
       3, uint(QCPPolarGrid::gtRadial),
       4, uint(QCPPolarGrid::gtAll),
       5, uint(QCPPolarGrid::gtNone),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPPolarGrid::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPPolarGridENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPPolarGridENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPPolarGridENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPPolarGrid, std::true_type>
    >,
    nullptr
} };

void QCPPolarGrid::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPPolarGrid::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPPolarGrid::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPPolarGridENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPPolarGrid::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS = QtMocHelpers::stringData(
    "QCPPolarLegendItem"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS_t {
    uint offsetsAndSizes[2];
    char stringdata0[19];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS_t qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS = {
    {
        QT_MOC_LITERAL(0, 18)   // "QCPPolarLegendItem"
    },
    "QCPPolarLegendItem"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPPolarLegendItemENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
       0,    0, // enums/sets
       0,    0, // constructors
       0,       // flags
       0,       // signalCount

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPPolarLegendItem::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPAbstractLegendItem::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPPolarLegendItemENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPPolarLegendItem, std::true_type>
    >,
    nullptr
} };

void QCPPolarLegendItem::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    (void)_o;
    (void)_id;
    (void)_c;
    (void)_a;
}

const QMetaObject *QCPPolarLegendItem::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPPolarLegendItem::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPPolarLegendItemENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPAbstractLegendItem::qt_metacast(_clname);
}

int QCPPolarLegendItem::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPAbstractLegendItem::qt_metacall(_c, _id, _a);
    return _id;
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS = QtMocHelpers::stringData(
    "QCPPolarGraph",
    "selectionChanged",
    "",
    "selected",
    "QCPDataSelection",
    "selection",
    "selectableChanged",
    "QCP::SelectionType",
    "selectable",
    "setSelectable",
    "setSelection",
    "LineStyle",
    "lsNone",
    "lsLine"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS_t {
    uint offsetsAndSizes[28];
    char stringdata0[14];
    char stringdata1[17];
    char stringdata2[1];
    char stringdata3[9];
    char stringdata4[17];
    char stringdata5[10];
    char stringdata6[18];
    char stringdata7[19];
    char stringdata8[11];
    char stringdata9[14];
    char stringdata10[13];
    char stringdata11[10];
    char stringdata12[7];
    char stringdata13[7];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS_t qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS = {
    {
        QT_MOC_LITERAL(0, 13),  // "QCPPolarGraph"
        QT_MOC_LITERAL(14, 16),  // "selectionChanged"
        QT_MOC_LITERAL(31, 0),  // ""
        QT_MOC_LITERAL(32, 8),  // "selected"
        QT_MOC_LITERAL(41, 16),  // "QCPDataSelection"
        QT_MOC_LITERAL(58, 9),  // "selection"
        QT_MOC_LITERAL(68, 17),  // "selectableChanged"
        QT_MOC_LITERAL(86, 18),  // "QCP::SelectionType"
        QT_MOC_LITERAL(105, 10),  // "selectable"
        QT_MOC_LITERAL(116, 13),  // "setSelectable"
        QT_MOC_LITERAL(130, 12),  // "setSelection"
        QT_MOC_LITERAL(143, 9),  // "LineStyle"
        QT_MOC_LITERAL(153, 6),  // "lsNone"
        QT_MOC_LITERAL(160, 6)   // "lsLine"
    },
    "QCPPolarGraph",
    "selectionChanged",
    "",
    "selected",
    "QCPDataSelection",
    "selection",
    "selectableChanged",
    "QCP::SelectionType",
    "selectable",
    "setSelectable",
    "setSelection",
    "LineStyle",
    "lsNone",
    "lsLine"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPPolarGraphENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       5,   14, // methods
       0,    0, // properties
       1,   59, // enums/sets
       0,    0, // constructors
       0,       // flags
       3,       // signalCount

 // signals: name, argc, parameters, tag, flags, initial metatype offsets
       1,    1,   44,    2, 0x06,    1 /* Public */,
       1,    1,   47,    2, 0x06,    3 /* Public */,
       6,    1,   50,    2, 0x06,    5 /* Public */,

 // slots: name, argc, parameters, tag, flags, initial metatype offsets
       9,    1,   53,    2, 0x0a,    7 /* Public */,
      10,    1,   56,    2, 0x0a,    9 /* Public */,

 // signals: parameters
    QMetaType::Void, QMetaType::Bool,    3,
    QMetaType::Void, 0x80000000 | 4,    5,
    QMetaType::Void, 0x80000000 | 7,    8,

 // slots: parameters
    QMetaType::Void, 0x80000000 | 7,    8,
    QMetaType::Void, 0x80000000 | 4,    5,

 // enums: name, alias, flags, count, data
      11,   11, 0x0,    2,   64,

 // enum data: key, value
      12, uint(QCPPolarGraph::lsNone),
      13, uint(QCPPolarGraph::lsLine),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCPPolarGraph::staticMetaObject = { {
    QMetaObject::SuperData::link<QCPLayerable::staticMetaObject>(),
    qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPPolarGraphENDCLASS,
    qt_static_metacall,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<QCPPolarGraph, std::true_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<bool, std::false_type>,
        // method 'selectionChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<const QCPDataSelection &, std::false_type>,
        // method 'selectableChanged'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCP::SelectionType, std::false_type>,
        // method 'setSelectable'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCP::SelectionType, std::false_type>,
        // method 'setSelection'
        QtPrivate::TypeAndForceComplete<void, std::false_type>,
        QtPrivate::TypeAndForceComplete<QCPDataSelection, std::false_type>
    >,
    nullptr
} };

void QCPPolarGraph::qt_static_metacall(QObject *_o, QMetaObject::Call _c, int _id, void **_a)
{
    if (_c == QMetaObject::InvokeMetaMethod) {
        auto *_t = static_cast<QCPPolarGraph *>(_o);
        (void)_t;
        switch (_id) {
        case 0: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<bool>>(_a[1]))); break;
        case 1: _t->selectionChanged((*reinterpret_cast< std::add_pointer_t<QCPDataSelection>>(_a[1]))); break;
        case 2: _t->selectableChanged((*reinterpret_cast< std::add_pointer_t<QCP::SelectionType>>(_a[1]))); break;
        case 3: _t->setSelectable((*reinterpret_cast< std::add_pointer_t<QCP::SelectionType>>(_a[1]))); break;
        case 4: _t->setSelection((*reinterpret_cast< std::add_pointer_t<QCPDataSelection>>(_a[1]))); break;
        default: ;
        }
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        switch (_id) {
        default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
        case 1:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPDataSelection >(); break;
            }
            break;
        case 4:
            switch (*reinterpret_cast<int*>(_a[1])) {
            default: *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType(); break;
            case 0:
                *reinterpret_cast<QMetaType *>(_a[0]) = QMetaType::fromType< QCPDataSelection >(); break;
            }
            break;
        }
    } else if (_c == QMetaObject::IndexOfMethod) {
        int *result = reinterpret_cast<int *>(_a[0]);
        {
            using _t = void (QCPPolarGraph::*)(bool );
            if (_t _q_method = &QCPPolarGraph::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 0;
                return;
            }
        }
        {
            using _t = void (QCPPolarGraph::*)(const QCPDataSelection & );
            if (_t _q_method = &QCPPolarGraph::selectionChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 1;
                return;
            }
        }
        {
            using _t = void (QCPPolarGraph::*)(QCP::SelectionType );
            if (_t _q_method = &QCPPolarGraph::selectableChanged; *reinterpret_cast<_t *>(_a[1]) == _q_method) {
                *result = 2;
                return;
            }
        }
    }
}

const QMetaObject *QCPPolarGraph::metaObject() const
{
    return QObject::d_ptr->metaObject ? QObject::d_ptr->dynamicMetaObject() : &staticMetaObject;
}

void *QCPPolarGraph::qt_metacast(const char *_clname)
{
    if (!_clname) return nullptr;
    if (!strcmp(_clname, qt_meta_stringdata_CLASSQCPPolarGraphENDCLASS.stringdata0))
        return static_cast<void*>(this);
    return QCPLayerable::qt_metacast(_clname);
}

int QCPPolarGraph::qt_metacall(QMetaObject::Call _c, int _id, void **_a)
{
    _id = QCPLayerable::qt_metacall(_c, _id, _a);
    if (_id < 0)
        return _id;
    if (_c == QMetaObject::InvokeMetaMethod) {
        if (_id < 5)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    } else if (_c == QMetaObject::RegisterMethodArgumentMetaType) {
        if (_id < 5)
            qt_static_metacall(this, _c, _id, _a);
        _id -= 5;
    }
    return _id;
}

// SIGNAL 0
void QCPPolarGraph::selectionChanged(bool _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 0, _a);
}

// SIGNAL 1
void QCPPolarGraph::selectionChanged(const QCPDataSelection & _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 1, _a);
}

// SIGNAL 2
void QCPPolarGraph::selectableChanged(QCP::SelectionType _t1)
{
    void *_a[] = { nullptr, const_cast<void*>(reinterpret_cast<const void*>(std::addressof(_t1))) };
    QMetaObject::activate(this, &staticMetaObject, 2, _a);
}
namespace {

#ifdef QT_MOC_HAS_STRINGDATA
struct qt_meta_stringdata_CLASSQCPENDCLASS_t {};
static constexpr auto qt_meta_stringdata_CLASSQCPENDCLASS = QtMocHelpers::stringData(
    "QCP",
    "ResolutionUnit",
    "ruDotsPerMeter",
    "ruDotsPerCentimeter",
    "ruDotsPerInch",
    "ExportPen",
    "epNoCosmetic",
    "epAllowCosmetic",
    "SignDomain",
    "sdNegative",
    "sdBoth",
    "sdPositive",
    "MarginSide",
    "msLeft",
    "msRight",
    "msTop",
    "msBottom",
    "msAll",
    "msNone",
    "MarginSides",
    "AntialiasedElement",
    "aeAxes",
    "aeGrid",
    "aeSubGrid",
    "aeLegend",
    "aeLegendItems",
    "aePlottables",
    "aeItems",
    "aeScatters",
    "aeFills",
    "aeZeroLine",
    "aeOther",
    "aeAll",
    "aeNone",
    "AntialiasedElements",
    "PlottingHint",
    "phNone",
    "phFastPolylines",
    "phImmediateRefresh",
    "phCacheLabels",
    "PlottingHints",
    "Interaction",
    "iNone",
    "iRangeDrag",
    "iRangeZoom",
    "iMultiSelect",
    "iSelectPlottables",
    "iSelectAxes",
    "iSelectLegend",
    "iSelectItems",
    "iSelectOther",
    "iSelectPlottablesBeyondAxisRect",
    "Interactions",
    "SelectionRectMode",
    "srmNone",
    "srmZoom",
    "srmSelect",
    "srmCustom",
    "SelectionType",
    "stNone",
    "stWhole",
    "stSingleData",
    "stDataRange",
    "stMultipleDataRanges"
);
#else  // !QT_MOC_HAS_STRING_DATA
struct qt_meta_stringdata_CLASSQCPENDCLASS_t {
    uint offsetsAndSizes[128];
    char stringdata0[4];
    char stringdata1[15];
    char stringdata2[15];
    char stringdata3[20];
    char stringdata4[14];
    char stringdata5[10];
    char stringdata6[13];
    char stringdata7[16];
    char stringdata8[11];
    char stringdata9[11];
    char stringdata10[7];
    char stringdata11[11];
    char stringdata12[11];
    char stringdata13[7];
    char stringdata14[8];
    char stringdata15[6];
    char stringdata16[9];
    char stringdata17[6];
    char stringdata18[7];
    char stringdata19[12];
    char stringdata20[19];
    char stringdata21[7];
    char stringdata22[7];
    char stringdata23[10];
    char stringdata24[9];
    char stringdata25[14];
    char stringdata26[13];
    char stringdata27[8];
    char stringdata28[11];
    char stringdata29[8];
    char stringdata30[11];
    char stringdata31[8];
    char stringdata32[6];
    char stringdata33[7];
    char stringdata34[20];
    char stringdata35[13];
    char stringdata36[7];
    char stringdata37[16];
    char stringdata38[19];
    char stringdata39[14];
    char stringdata40[14];
    char stringdata41[12];
    char stringdata42[6];
    char stringdata43[11];
    char stringdata44[11];
    char stringdata45[13];
    char stringdata46[18];
    char stringdata47[12];
    char stringdata48[14];
    char stringdata49[13];
    char stringdata50[13];
    char stringdata51[32];
    char stringdata52[13];
    char stringdata53[18];
    char stringdata54[8];
    char stringdata55[8];
    char stringdata56[10];
    char stringdata57[10];
    char stringdata58[14];
    char stringdata59[7];
    char stringdata60[8];
    char stringdata61[13];
    char stringdata62[12];
    char stringdata63[21];
};
#define QT_MOC_LITERAL(ofs, len) \
    uint(sizeof(qt_meta_stringdata_CLASSQCPENDCLASS_t::offsetsAndSizes) + ofs), len 
Q_CONSTINIT static const qt_meta_stringdata_CLASSQCPENDCLASS_t qt_meta_stringdata_CLASSQCPENDCLASS = {
    {
        QT_MOC_LITERAL(0, 3),  // "QCP"
        QT_MOC_LITERAL(4, 14),  // "ResolutionUnit"
        QT_MOC_LITERAL(19, 14),  // "ruDotsPerMeter"
        QT_MOC_LITERAL(34, 19),  // "ruDotsPerCentimeter"
        QT_MOC_LITERAL(54, 13),  // "ruDotsPerInch"
        QT_MOC_LITERAL(68, 9),  // "ExportPen"
        QT_MOC_LITERAL(78, 12),  // "epNoCosmetic"
        QT_MOC_LITERAL(91, 15),  // "epAllowCosmetic"
        QT_MOC_LITERAL(107, 10),  // "SignDomain"
        QT_MOC_LITERAL(118, 10),  // "sdNegative"
        QT_MOC_LITERAL(129, 6),  // "sdBoth"
        QT_MOC_LITERAL(136, 10),  // "sdPositive"
        QT_MOC_LITERAL(147, 10),  // "MarginSide"
        QT_MOC_LITERAL(158, 6),  // "msLeft"
        QT_MOC_LITERAL(165, 7),  // "msRight"
        QT_MOC_LITERAL(173, 5),  // "msTop"
        QT_MOC_LITERAL(179, 8),  // "msBottom"
        QT_MOC_LITERAL(188, 5),  // "msAll"
        QT_MOC_LITERAL(194, 6),  // "msNone"
        QT_MOC_LITERAL(201, 11),  // "MarginSides"
        QT_MOC_LITERAL(213, 18),  // "AntialiasedElement"
        QT_MOC_LITERAL(232, 6),  // "aeAxes"
        QT_MOC_LITERAL(239, 6),  // "aeGrid"
        QT_MOC_LITERAL(246, 9),  // "aeSubGrid"
        QT_MOC_LITERAL(256, 8),  // "aeLegend"
        QT_MOC_LITERAL(265, 13),  // "aeLegendItems"
        QT_MOC_LITERAL(279, 12),  // "aePlottables"
        QT_MOC_LITERAL(292, 7),  // "aeItems"
        QT_MOC_LITERAL(300, 10),  // "aeScatters"
        QT_MOC_LITERAL(311, 7),  // "aeFills"
        QT_MOC_LITERAL(319, 10),  // "aeZeroLine"
        QT_MOC_LITERAL(330, 7),  // "aeOther"
        QT_MOC_LITERAL(338, 5),  // "aeAll"
        QT_MOC_LITERAL(344, 6),  // "aeNone"
        QT_MOC_LITERAL(351, 19),  // "AntialiasedElements"
        QT_MOC_LITERAL(371, 12),  // "PlottingHint"
        QT_MOC_LITERAL(384, 6),  // "phNone"
        QT_MOC_LITERAL(391, 15),  // "phFastPolylines"
        QT_MOC_LITERAL(407, 18),  // "phImmediateRefresh"
        QT_MOC_LITERAL(426, 13),  // "phCacheLabels"
        QT_MOC_LITERAL(440, 13),  // "PlottingHints"
        QT_MOC_LITERAL(454, 11),  // "Interaction"
        QT_MOC_LITERAL(466, 5),  // "iNone"
        QT_MOC_LITERAL(472, 10),  // "iRangeDrag"
        QT_MOC_LITERAL(483, 10),  // "iRangeZoom"
        QT_MOC_LITERAL(494, 12),  // "iMultiSelect"
        QT_MOC_LITERAL(507, 17),  // "iSelectPlottables"
        QT_MOC_LITERAL(525, 11),  // "iSelectAxes"
        QT_MOC_LITERAL(537, 13),  // "iSelectLegend"
        QT_MOC_LITERAL(551, 12),  // "iSelectItems"
        QT_MOC_LITERAL(564, 12),  // "iSelectOther"
        QT_MOC_LITERAL(577, 31),  // "iSelectPlottablesBeyondAxisRect"
        QT_MOC_LITERAL(609, 12),  // "Interactions"
        QT_MOC_LITERAL(622, 17),  // "SelectionRectMode"
        QT_MOC_LITERAL(640, 7),  // "srmNone"
        QT_MOC_LITERAL(648, 7),  // "srmZoom"
        QT_MOC_LITERAL(656, 9),  // "srmSelect"
        QT_MOC_LITERAL(666, 9),  // "srmCustom"
        QT_MOC_LITERAL(676, 13),  // "SelectionType"
        QT_MOC_LITERAL(690, 6),  // "stNone"
        QT_MOC_LITERAL(697, 7),  // "stWhole"
        QT_MOC_LITERAL(705, 12),  // "stSingleData"
        QT_MOC_LITERAL(718, 11),  // "stDataRange"
        QT_MOC_LITERAL(730, 20)   // "stMultipleDataRanges"
    },
    "QCP",
    "ResolutionUnit",
    "ruDotsPerMeter",
    "ruDotsPerCentimeter",
    "ruDotsPerInch",
    "ExportPen",
    "epNoCosmetic",
    "epAllowCosmetic",
    "SignDomain",
    "sdNegative",
    "sdBoth",
    "sdPositive",
    "MarginSide",
    "msLeft",
    "msRight",
    "msTop",
    "msBottom",
    "msAll",
    "msNone",
    "MarginSides",
    "AntialiasedElement",
    "aeAxes",
    "aeGrid",
    "aeSubGrid",
    "aeLegend",
    "aeLegendItems",
    "aePlottables",
    "aeItems",
    "aeScatters",
    "aeFills",
    "aeZeroLine",
    "aeOther",
    "aeAll",
    "aeNone",
    "AntialiasedElements",
    "PlottingHint",
    "phNone",
    "phFastPolylines",
    "phImmediateRefresh",
    "phCacheLabels",
    "PlottingHints",
    "Interaction",
    "iNone",
    "iRangeDrag",
    "iRangeZoom",
    "iMultiSelect",
    "iSelectPlottables",
    "iSelectAxes",
    "iSelectLegend",
    "iSelectItems",
    "iSelectOther",
    "iSelectPlottablesBeyondAxisRect",
    "Interactions",
    "SelectionRectMode",
    "srmNone",
    "srmZoom",
    "srmSelect",
    "srmCustom",
    "SelectionType",
    "stNone",
    "stWhole",
    "stSingleData",
    "stDataRange",
    "stMultipleDataRanges"
};
#undef QT_MOC_LITERAL
#endif // !QT_MOC_HAS_STRING_DATA
} // unnamed namespace

Q_CONSTINIT static const uint qt_meta_data_CLASSQCPENDCLASS[] = {

 // content:
      11,       // revision
       0,       // classname
       0,    0, // classinfo
       0,    0, // methods
       0,    0, // properties
      13,   14, // enums/sets
       0,    0, // constructors
       4,       // flags
       0,       // signalCount

 // enums: name, alias, flags, count, data
       1,    1, 0x0,    3,   79,
       5,    5, 0x0,    2,   85,
       8,    8, 0x0,    3,   89,
      12,   12, 0x0,    6,   95,
      19,   12, 0x1,    6,  107,
      20,   20, 0x0,   13,  119,
      34,   20, 0x1,   13,  145,
      35,   35, 0x0,    4,  171,
      40,   35, 0x1,    4,  179,
      41,   41, 0x0,   10,  187,
      52,   41, 0x1,   10,  207,
      53,   53, 0x0,    4,  227,
      58,   58, 0x0,    5,  235,

 // enum data: key, value
       2, uint(QCP::ruDotsPerMeter),
       3, uint(QCP::ruDotsPerCentimeter),
       4, uint(QCP::ruDotsPerInch),
       6, uint(QCP::epNoCosmetic),
       7, uint(QCP::epAllowCosmetic),
       9, uint(QCP::sdNegative),
      10, uint(QCP::sdBoth),
      11, uint(QCP::sdPositive),
      13, uint(QCP::msLeft),
      14, uint(QCP::msRight),
      15, uint(QCP::msTop),
      16, uint(QCP::msBottom),
      17, uint(QCP::msAll),
      18, uint(QCP::msNone),
      13, uint(QCP::msLeft),
      14, uint(QCP::msRight),
      15, uint(QCP::msTop),
      16, uint(QCP::msBottom),
      17, uint(QCP::msAll),
      18, uint(QCP::msNone),
      21, uint(QCP::aeAxes),
      22, uint(QCP::aeGrid),
      23, uint(QCP::aeSubGrid),
      24, uint(QCP::aeLegend),
      25, uint(QCP::aeLegendItems),
      26, uint(QCP::aePlottables),
      27, uint(QCP::aeItems),
      28, uint(QCP::aeScatters),
      29, uint(QCP::aeFills),
      30, uint(QCP::aeZeroLine),
      31, uint(QCP::aeOther),
      32, uint(QCP::aeAll),
      33, uint(QCP::aeNone),
      21, uint(QCP::aeAxes),
      22, uint(QCP::aeGrid),
      23, uint(QCP::aeSubGrid),
      24, uint(QCP::aeLegend),
      25, uint(QCP::aeLegendItems),
      26, uint(QCP::aePlottables),
      27, uint(QCP::aeItems),
      28, uint(QCP::aeScatters),
      29, uint(QCP::aeFills),
      30, uint(QCP::aeZeroLine),
      31, uint(QCP::aeOther),
      32, uint(QCP::aeAll),
      33, uint(QCP::aeNone),
      36, uint(QCP::phNone),
      37, uint(QCP::phFastPolylines),
      38, uint(QCP::phImmediateRefresh),
      39, uint(QCP::phCacheLabels),
      36, uint(QCP::phNone),
      37, uint(QCP::phFastPolylines),
      38, uint(QCP::phImmediateRefresh),
      39, uint(QCP::phCacheLabels),
      42, uint(QCP::iNone),
      43, uint(QCP::iRangeDrag),
      44, uint(QCP::iRangeZoom),
      45, uint(QCP::iMultiSelect),
      46, uint(QCP::iSelectPlottables),
      47, uint(QCP::iSelectAxes),
      48, uint(QCP::iSelectLegend),
      49, uint(QCP::iSelectItems),
      50, uint(QCP::iSelectOther),
      51, uint(QCP::iSelectPlottablesBeyondAxisRect),
      42, uint(QCP::iNone),
      43, uint(QCP::iRangeDrag),
      44, uint(QCP::iRangeZoom),
      45, uint(QCP::iMultiSelect),
      46, uint(QCP::iSelectPlottables),
      47, uint(QCP::iSelectAxes),
      48, uint(QCP::iSelectLegend),
      49, uint(QCP::iSelectItems),
      50, uint(QCP::iSelectOther),
      51, uint(QCP::iSelectPlottablesBeyondAxisRect),
      54, uint(QCP::srmNone),
      55, uint(QCP::srmZoom),
      56, uint(QCP::srmSelect),
      57, uint(QCP::srmCustom),
      59, uint(QCP::stNone),
      60, uint(QCP::stWhole),
      61, uint(QCP::stSingleData),
      62, uint(QCP::stDataRange),
      63, uint(QCP::stMultipleDataRanges),

       0        // eod
};

Q_CONSTINIT const QMetaObject QCP::staticMetaObject = { {
    nullptr,
    qt_meta_stringdata_CLASSQCPENDCLASS.offsetsAndSizes,
    qt_meta_data_CLASSQCPENDCLASS,
    nullptr,
    nullptr,
    qt_incomplete_metaTypeArray<qt_meta_stringdata_CLASSQCPENDCLASS_t,
        // Q_OBJECT / Q_GADGET
        QtPrivate::TypeAndForceComplete<void, std::true_type>
    >,
    nullptr
} };

QT_WARNING_POP