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|
/**
* @author Felix Morgner (felix.morgner@gmail.com)
* @copyright Copyright (c) 2025
* SPDX-License-Identifier: LGPL-2.1-or-later
*/
#include "adwaitamm/spinrow.hpp"
#include "adwaitamm/actionrow.hpp"
#include "adwaitamm/private/spinrow_p.hpp"
#include <sigc++/functors/slot.h>
#include <glibmm/exceptionhandler.h>
#include <glibmm/object.h>
#include <glibmm/objectbase.h>
#include <glibmm/propertyproxy.h>
#include <glibmm/refptr.h>
#include <glibmm/signalproxy.h>
#include <glibmm/wrap.h>
#include <gtkmm/adjustment.h>
#include <gtkmm/spinbutton.h>
#include <glib-object.h>
#include <glib.h>
#include <gtk/gtk.h>
namespace Adwaita
{
namespace
{
auto constinit _class = SpinRow_Class{};
namespace property_name
{
auto constexpr adjustment = "adjustment";
auto constexpr climb_rate = "climb-rate";
auto constexpr digits = "digits";
auto constexpr numeric = "numeric";
auto constexpr snap_to_ticks = "snap-to-ticks";
auto constexpr update_policy = "update-policy";
auto constexpr value = "value";
auto constexpr wrap = "wrap";
} // namespace property_name
namespace signal_handler
{
auto input(AdwSpinRow * self, double * new_value, void * user_data) -> int
try
{
auto object = Glib::wrap(self);
if (object)
{
auto slot = Glib::SignalProxyNormal::data_to_slot(user_data);
if (slot)
{
return (*static_cast<sigc::slot<int(double &)> *>(slot))(*new_value);
}
}
return {};
}
catch (...)
{
Glib::exception_handlers_invoke();
return {};
}
auto input_notify(AdwSpinRow * self, double * new_value, void * user_data) -> gboolean
try
{
auto object = Glib::wrap(self);
if (object)
{
auto slot = Glib::SignalProxyNormal::data_to_slot(user_data);
if (slot)
{
(*static_cast<sigc::slot<int(double &)> *>(slot))(*new_value);
}
}
return {};
}
catch (...)
{
Glib::exception_handlers_invoke();
return {};
}
auto output(AdwSpinRow * self, void * user_data) -> gboolean
try
{
auto object = Glib::wrap(self);
if (object)
{
auto slot = Glib::SignalProxyNormal::data_to_slot(user_data);
if (slot)
{
return static_cast<gboolean>((*static_cast<sigc::slot<bool()> *>(slot))());
}
}
return {};
}
catch (...)
{
Glib::exception_handlers_invoke();
return {};
}
auto output_notify(AdwSpinRow * self, void * user_data) -> gboolean
try
{
auto object = Glib::wrap(self);
if (object)
{
auto slot = Glib::SignalProxyNormal::data_to_slot(user_data);
if (slot)
{
(*static_cast<sigc::slot<bool()> *>(slot))();
}
}
return {};
}
catch (...)
{
Glib::exception_handlers_invoke();
return {};
}
} // namespace signal_handler
namespace signal_info
{
auto const input = Glib::SignalProxyInfo{
"input",
reinterpret_cast<GCallback>(&signal_handler::input),
reinterpret_cast<GCallback>(&signal_handler::input_notify),
};
auto const output = Glib::SignalProxyInfo{
"output",
reinterpret_cast<GCallback>(&signal_handler::output),
reinterpret_cast<GCallback>(&signal_handler::output_notify),
};
auto const wrapped = Glib::SignalProxyInfo{
"wrapped",
reinterpret_cast<GCallback>(&Glib::SignalProxyNormal::slot0_void_callback),
reinterpret_cast<GCallback>(&Glib::SignalProxyNormal::slot0_void_callback),
};
} // namespace signal_info
} // namespace
SpinRow::SpinRow(Gtk::Adjustment & adjustment, double climb_rate, unsigned int digits)
: Glib::ObjectBase{nullptr}
, ActionRow{Glib::ConstructParams{_class.init(), "adjustment", unwrap(&adjustment), "climb-rate", climb_rate, "digits", digits, nullptr}}
{
}
SpinRow::SpinRow(double min, double max, double step)
: Glib::ObjectBase{nullptr}
, ActionRow{ADW_ACTION_ROW(adw_spin_row_new_with_range(min, max, step))}
{
}
auto SpinRow::get_type() -> GType
{
return _class.init().get_type();
}
auto SpinRow::get_base_type() -> GType
{
return adw_spin_row_get_type();
}
auto SpinRow::configure(Gtk::Adjustment & adjustment, double climb_rate, unsigned int digits) -> void
{
return adw_spin_row_configure(unwrap(this), unwrap(&adjustment), climb_rate, digits);
}
auto SpinRow::update() -> void
{
return adw_spin_row_update(unwrap(this));
}
auto SpinRow::get_adjustment() const -> Glib::RefPtr<Gtk::Adjustment>
{
// Take a copy, since SpinRow owns the adjustment
return Glib::wrap(adw_spin_row_get_adjustment(const_cast<BaseObjectType *>(unwrap(this))), true);
}
auto SpinRow::get_climb_rate() const -> double
{
return adw_spin_row_get_climb_rate(const_cast<BaseObjectType *>(unwrap(this)));
}
auto SpinRow::get_digits() const -> unsigned int
{
return adw_spin_row_get_digits(const_cast<BaseObjectType *>(unwrap(this)));
}
auto SpinRow::get_numeric() const -> bool
{
return adw_spin_row_get_numeric(const_cast<BaseObjectType *>(unwrap(this)));
}
auto SpinRow::get_snap_to_ticks() const -> bool
{
return adw_spin_row_get_snap_to_ticks(const_cast<BaseObjectType *>(unwrap(this)));
}
auto SpinRow::get_update_policy() const -> Gtk::SpinButton::UpdatePolicy
{
return static_cast<Gtk::SpinButton::UpdatePolicy>(adw_spin_row_get_update_policy(const_cast<BaseObjectType *>(unwrap(this))));
}
auto SpinRow::get_value() const -> double
{
return adw_spin_row_get_value(const_cast<BaseObjectType *>(unwrap(this)));
}
auto SpinRow::get_wrap() const -> bool
{
return adw_spin_row_get_wrap(const_cast<BaseObjectType *>(unwrap(this)));
}
auto SpinRow::set_adjustment(Gtk::Adjustment & value) -> void
{
return adw_spin_row_set_adjustment(unwrap(this), unwrap(&value));
}
auto SpinRow::set_climb_rate(double value) -> void
{
return adw_spin_row_set_climb_rate(unwrap(this), value);
}
auto SpinRow::set_digits(unsigned int value) -> void
{
return adw_spin_row_set_digits(unwrap(this), value);
}
auto SpinRow::set_numeric(bool value) -> void
{
return adw_spin_row_set_numeric(unwrap(this), value);
}
auto SpinRow::set_range(double min, double max) -> void
{
return adw_spin_row_set_range(unwrap(this), min, max);
}
auto SpinRow::set_snap_to_ticks(bool value) -> void
{
return adw_spin_row_set_snap_to_ticks(unwrap(this), value);
}
auto SpinRow::set_update_policy(Gtk::SpinButton::UpdatePolicy value) -> void
{
return adw_spin_row_set_update_policy(unwrap(this), static_cast<GtkSpinButtonUpdatePolicy>(value));
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