/* Copyright (c) 2013-2015 Stanislaw Halik
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*/
#pragma once
#include <memory>
#include <tuple>
#include <map>
#include <cinttypes>
#include <vector>
#include <memory>
#include <QObject>
#include <QSettings>
#include <QString>
#include <QVariant>
#include <QMutex>
#include <QMutexLocker>
#include <QWidget>
#include <QComboBox>
#include <QCheckBox>
#include <QDoubleSpinBox>
#include <QSpinBox>
#include <QSlider>
#include <QLineEdit>
#include <QLabel>
#include <QTabWidget>
#include <QCoreApplication>
#include <QFileInfo>
#include <QDir>
#include <QStandardPaths>
#include <QApplication>
#include <QMetaType>
#include <QDebug>
#ifdef BUILD_compat
# include "compat-export.hpp"
#else
# include "compat-import.hpp"
#endif
template<typename t> using mem = std::shared_ptr<t>;
#define OPENTRACK_CONFIG_FILENAME_KEY "settings-filename"
#define OPENTRACK_DEFAULT_CONFIG "default.ini"
#define OPENTRACK_ORG "opentrack-2.3"
namespace options
{
struct OPENTRACK_COMPAT_EXPORT slider_value
{
double cur, min, max;
slider_value(double cur, double min, double max) :
cur(cur),
min(min),
max(max)
{}
slider_value() : slider_value(0, 0, 0) {}
operator double() const;
double to_abs() const { return operator double(); }
static slider_value from_abs(double val, double min, double max);
};
}
Q_DECLARE_METATYPE(options::slider_value)
namespace options {
template<typename k, typename v> using map = std::map<k, v>;
// snapshot of qsettings group at given time
class OPENTRACK_COMPAT_EXPORT group {
private:
map<QString, QVariant> kvs;
QString name;
public:
group(const QString& name);
void save() const;
void put(const QString& s, const QVariant& d);
bool contains(const QString& s) const;
static QString ini_directory();
static QString ini_filename();
static QString ini_pathname();
static const QStringList ini_list();
static const mem<QSettings> ini_file();
template<typename t>
t get(const QString& k) const
{
auto value = kvs.find(k);
if (value != kvs.cend())
return value->second.value<t>();
return t();
}
};
class OPENTRACK_COMPAT_EXPORT impl_bundle : public QObject {
Q_OBJECT
protected:
QMutex mtx;
const QString group_name;
group saved;
group transient;
bool modified;
impl_bundle(const impl_bundle&) = delete;
impl_bundle& operator=(const impl_bundle&) = delete;
signals:
void reloading();
void saving() const;
public:
impl_bundle(const QString& group_name);
QString name() { return group_name; }
void reload();
void store_kv(const QString& name, const QVariant& datum);
bool contains(const QString& name) const;
void save();
bool modifiedp() const;
template<typename t>
t get(const QString& name) const
{
QMutexLocker l(const_cast<QMutex*>(&mtx));
return transient.get<t>(name);
}
};
class opt_bundle;
namespace detail
{
struct OPENTRACK_COMPAT_EXPORT opt_singleton
{
public:
using k = QString;
using v = opt_bundle;
using cnt = int;
using pbundle = std::shared_ptr<v>;
using tt = std::tuple<cnt, std::weak_ptr<v>>;
private:
QMutex implsgl_mtx;
map<k, tt> implsgl_data;
public:
opt_singleton();
pbundle bundle(const k& key);
void bundle_decf(const k& key);
};
OPENTRACK_COMPAT_EXPORT opt_singleton& singleton();
}
using pbundle = std::shared_ptr<opt_bundle>;
pbundle bundle(const QString& name);
class OPENTRACK_COMPAT_EXPORT opt_bundle final : public impl_bundle
{
public:
opt_bundle() : impl_bundle("i-have-no-name") {}
opt_bundle(const QString& group_name);
~opt_bundle();
};
#define DEFINE_SLOT(t) void setValue(t datum) { store(datum); }
#define DEFINE_SIGNAL(t) void valueChanged(t)
class OPENTRACK_COMPAT_EXPORT base_value : public QObject
{
Q_OBJECT
public:
QString name() const { return self_name; }
base_value(pbundle b, const QString& name);
signals:
DEFINE_SIGNAL(double);
DEFINE_SIGNAL(float);
DEFINE_SIGNAL(int);
DEFINE_SIGNAL(bool);
DEFINE_SIGNAL(QString);
DEFINE_SIGNAL(slider_value);
protected:
pbundle b;
QString self_name;
template<typename t>
void store(const t& datum)
{
b->store_kv(self_name, QVariant::fromValue(datum));
emit valueChanged(static_cast<t>(datum));
}
void store(float datum)
{
store(double(datum));
}
public slots:
DEFINE_SLOT(double)
DEFINE_SLOT(int)
DEFINE_SLOT(QString)
DEFINE_SLOT(bool)
DEFINE_SLOT(slider_value)
public slots:
virtual void reload() = 0;
};
template<typename t_>
class value : public base_value
{
template<typename t__, typename Enable = void>
struct get_t
{ using t = t__; };
// Qt uses int a lot in slots so use it for all enums
template<typename t__>
struct get_t<t__, typename std::enable_if<std::is_enum<t__>::value>::type>
//{ using t = typename std::underlying_type<t__>::type; };
{ using t = int; };
using t = t_;
public:
using underlying_t = typename get_t<t_>::t;
t operator=(const t datum)
{
store(static_cast<underlying_t>(datum));
return datum;
}
static constexpr const Qt::ConnectionType DIRECT_CONNTYPE = Qt::AutoConnection;
static constexpr const Qt::ConnectionType SAFE_CONNTYPE = Qt::QueuedConnection;
value(pbundle b, const QString& name, t def) : base_value(b, name), def(static_cast<underlying_t>(def))
{
QObject::connect(b.get(), SIGNAL(reloading()),
this, SLOT(reload()),
DIRECT_CONNTYPE);
if (!b->contains(name) || b->get<QVariant>(name).type() == QVariant::Invalid)
*this = def;
}
value(pbundle b, const char* name, t def) : value(b, QString(name), def) {}
operator t() const
{
return static_cast<t>(b->contains(self_name) ? b->get<underlying_t>(self_name) : def);
}
void reload() override
{
*this = static_cast<t>(*this);
}
private:
underlying_t def;
};
struct OPENTRACK_COMPAT_EXPORT opts
{
pbundle b;
opts(const QString& name);
opts& operator=(const opts&) = delete;
opts(const opts&) = delete;
~opts();
};
template<typename t, typename q>
inline void tie_setting(value<t>&, q*);
template<typename t>
inline
typename std::enable_if<std::is_enum<t>::value>::type
tie_setting(value<t>& v, QComboBox* cb)
{
cb->setCurrentIndex(cb->findData((unsigned)static_cast<t>(v)));
v = static_cast<t>(cb->currentData().toInt());
// QObject::connect plays badly with std::bind of std::shared_ptr. Data seems to get freed.
// Direct accesses of cb->currentData within arbitrary thread context cause crashes as well.
// Hence we go for a verbose implementation.
std::vector<int> enum_cases;
enum_cases.reserve(cb->count());
for (int i = 0; i < cb->count(); i++)
enum_cases.push_back(cb->itemData(i).toInt());
struct fn1
{
value<t>& v;
QComboBox* cb;
std::vector<int> enum_cases;
fn1(value<t>& v, QComboBox* cb, const std::vector<int>& enum_cases) : v(v), cb(cb), enum_cases(enum_cases)
{}
void operator()(int idx)
{
if (idx < 0 || idx >= (int)enum_cases.size())
v = static_cast<t>(-1);
else
v = static_cast<t>(enum_cases[idx]);
}
};
struct fn2
{
value<t>& v;
QComboBox* cb;
std::vector<int> enum_cases;
fn2(value<t>& v, QComboBox* cb, const std::vector<int>& enum_cases) : v(v), cb(cb), enum_cases(enum_cases)
{}
void operator()(int val)
{
for (unsigned i = 0; i < enum_cases.size(); i++)
{
if (val == enum_cases[i])
{
cb->setCurrentIndex(i);
return;
}
}
cb->setCurrentIndex(-1);
}
};
base_value::connect(cb,
static_cast<void (QComboBox::*)(int)>(&QComboBox::currentIndexChanged),
&v,
fn1(v, cb, enum_cases),
v.DIRECT_CONNTYPE);
base_value::connect(&v,
static_cast<void (base_value::*)(int)>(&base_value::valueChanged),
cb,
fn2(v, cb, enum_cases),
v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<int>& v, QComboBox* cb)
{
cb->setCurrentIndex(v);
v = cb->currentIndex();
base_value::connect(cb, SIGNAL(currentIndexChanged(int)), &v, SLOT(setValue(int)), v.DIRECT_CONNTYPE);
base_value::connect(&v, SIGNAL(valueChanged(int)), cb, SLOT(setCurrentIndex(int)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<QString>& v, QComboBox* cb)
{
cb->setCurrentText(v);
v = cb->currentText();
base_value::connect(cb, SIGNAL(currentTextChanged(QString)), &v, SLOT(setValue(QString)), v.DIRECT_CONNTYPE);
base_value::connect(&v, SIGNAL(valueChanged(QString)), cb, SLOT(setCurrentText(QString)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<bool>& v, QCheckBox* cb)
{
cb->setChecked(v);
base_value::connect(cb, SIGNAL(toggled(bool)), &v, SLOT(setValue(bool)), v.DIRECT_CONNTYPE);
base_value::connect(&v, SIGNAL(valueChanged(bool)), cb, SLOT(setChecked(bool)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<double>& v, QDoubleSpinBox* dsb)
{
dsb->setValue(v);
base_value::connect(dsb, SIGNAL(valueChanged(double)), &v, SLOT(setValue(double)), v.DIRECT_CONNTYPE);
base_value::connect(&v, SIGNAL(valueChanged(double)), dsb, SLOT(setValue(double)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<int>& v, QSpinBox* sb)
{
sb->setValue(v);
base_value::connect(sb, SIGNAL(valueChanged(int)), &v, SLOT(setValue(int)), v.DIRECT_CONNTYPE);
base_value::connect(&v, SIGNAL(valueChanged(int)), sb, SLOT(setValue(int)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<int>& v, QSlider* sl)
{
sl->setValue(v);
v = sl->value();
base_value::connect(sl, SIGNAL(valueChanged(int)), &v, SLOT(setValue(int)), v.DIRECT_CONNTYPE);
base_value::connect(&v, SIGNAL(valueChanged(int)), sl, SLOT(setValue(int)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<QString>& v, QLineEdit* le)
{
le->setText(v);
base_value::connect(le, SIGNAL(textChanged(QString)), &v, SLOT(setValue(QString)), v.DIRECT_CONNTYPE);
base_value::connect(&v, SIGNAL(valueChanged(QString)),le, SLOT(setText(QString)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<QString>& v, QLabel* lb)
{
lb->setText(v);
base_value::connect(&v, SIGNAL(valueChanged(QString)), lb, SLOT(setText(QString)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<int>& v, QTabWidget* t)
{
t->setCurrentIndex(v);
base_value::connect(t, SIGNAL(currentChanged(int)), &v, SLOT(setValue(int)), v.DIRECT_CONNTYPE);
base_value::connect(&v, SIGNAL(valueChanged(int)), t, SLOT(setCurrentIndex(int)), v.DIRECT_CONNTYPE);
}
template<>
inline void tie_setting(value<slider_value>& v, QSlider* w)
{
// we can't get these at runtime since signals cross threads
const int min = w->minimum();
const int max = w->maximum();
const int max_ = max - min;
slider_value sv(v);
w->setValue(int(sv.cur * max_) + min);
v = slider_value(max_ <= 0 ? 0 : (w->value() - min) / (double)max_, sv.min, sv.max);
base_value::connect(w, &QSlider::valueChanged, &v,
[=, &v](int pos) -> void
{
v = slider_value(max_ <= 0 ? 0 : (pos - min) / (double)max_, sv.min, sv.max);
},
v.DIRECT_CONNTYPE);
base_value::connect(&v, static_cast<void(base_value::*)(double)>(&base_value::valueChanged), w,
[=](double value) -> void
{
w->setValue(int(value * max_) + min);
},
v.DIRECT_CONNTYPE);
}
}