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/*
* Copyright (c) 2021, Erlend Høier <Erlend@ReasonablePanic.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "AnalogClock.h"
#include <LibCore/DateTime.h>
#include <LibGUI/Application.h>
#include <LibGUI/Window.h>
#include <LibGfx/Palette.h>
#include <LibGfx/Path.h>
void AnalogClock::draw_graduations(GUI::Painter& painter, Gfx::IntRect& rect, int x, int y)
{
rect.set_x(x);
rect.set_y(y);
painter.fill_rect(rect, palette().active_window_border2());
painter.draw_line(rect.top_left(), rect.top_right(), palette().threed_highlight());
painter.draw_line(rect.bottom_left(), rect.bottom_right(), palette().active_window_border1().darkened(0.7f));
painter.draw_line(rect.bottom_right(), rect.top_right(), palette().active_window_border1().darkened(0.7f));
painter.draw_line(rect.top_left(), rect.bottom_left(), palette().threed_highlight());
}
// To create an even clock face it's necessary to mirror the graduations positions
void AnalogClock::draw_mirrored_graduations(GUI::Painter& painter, Gfx::IntRect& rect, int x, int y, int rect_center_offset)
{
auto w = this->rect().center().x() - rect_center_offset;
auto h = this->rect().center().y() - rect_center_offset;
draw_graduations(painter, rect, x + w, y + h);
draw_graduations(painter, rect, y + w, x + h);
draw_graduations(painter, rect, -x + w, y + h);
draw_graduations(painter, rect, -y + w, x + h);
draw_graduations(painter, rect, x + w, -y + h);
draw_graduations(painter, rect, y + w, -x + h);
draw_graduations(painter, rect, -x + w, -y + h);
draw_graduations(painter, rect, -y + w, -x + h);
}
void AnalogClock::draw_face(GUI::Painter& painter)
{
int x, y;
double angle = 2 * M_PI / 60;
for (int i = 0; i <= 7; ++i) {
x = sin(angle * static_cast<double>(i)) * m_clock_face_radius;
y = cos(angle * static_cast<double>(i)) * m_clock_face_radius;
draw_mirrored_graduations(painter, m_small_graduation_square, x, y, 1);
if (i % 5 == 0)
draw_mirrored_graduations(painter, m_big_graduation_square, x, y, 2);
}
}
void AnalogClock::draw_hand(GUI::Painter& painter, double angle, double length, Gfx::Color hand_color)
{
if (angle >= 2 * M_PI)
angle -= 2 * M_PI;
double cosine = cos(angle);
double sine = sin(angle);
double hand_x = (rect().center().x() + (cosine * length));
double hand_y = (rect().center().y() + (sine * length));
Gfx::IntPoint indicator_point(hand_x, hand_y);
Gfx::IntPoint tail_point(rect().center().x() + (-cosine * m_hand_tail_length), rect().center().y() + (-sine * m_hand_tail_length));
Gfx::IntPoint right_wing_point(rect().center().x() + (-sine * m_hand_wing_span), rect().center().y() + (cosine * m_hand_wing_span));
Gfx::IntPoint left_wing_point(rect().center().x() + (sine * m_hand_wing_span), rect().center().y() + (-cosine * m_hand_wing_span));
Gfx::Path hand_fill;
hand_fill.move_to(static_cast<Gfx::FloatPoint>(indicator_point));
hand_fill.line_to(static_cast<Gfx::FloatPoint>(left_wing_point));
hand_fill.line_to(static_cast<Gfx::FloatPoint>(tail_point));
hand_fill.line_to(static_cast<Gfx::FloatPoint>(right_wing_point));
hand_fill.close();
painter.fill_path(hand_fill, hand_color, Gfx::Painter::WindingRule::Nonzero);
// Draw highlight depending on the angle, this creates a subtle 3d effect.
// remember the angle value is offset by half pi.
if (angle > M_PI_2 - (M_PI / 3) && angle < M_PI + (M_PI / 3)) {
painter.draw_line(left_wing_point, indicator_point, hand_color.darkened(0.7f));
painter.draw_line(left_wing_point, tail_point, hand_color.darkened(0.7f));
painter.draw_line(right_wing_point, indicator_point, palette().threed_highlight());
painter.draw_line(right_wing_point, tail_point, palette().threed_highlight());
} else {
painter.draw_line(right_wing_point, indicator_point, hand_color.darkened(0.7f));
painter.draw_line(right_wing_point, tail_point, hand_color.darkened(0.7f));
painter.draw_line(left_wing_point, indicator_point, palette().threed_highlight());
painter.draw_line(left_wing_point, tail_point, palette().threed_highlight());
}
};
void AnalogClock::draw_seconds_hand(GUI::Painter& painter, double angle)
{
double hand_x = (rect().center().x() + (cos(angle)) * (m_clock_face_radius - 10));
double hand_y = (rect().center().y() + (sin(angle)) * (m_clock_face_radius - 10));
Gfx::IntPoint indicator_point(hand_x, hand_y);
painter.draw_line(rect().center(), indicator_point, palette().base_text());
}
void AnalogClock::paint_event(GUI::PaintEvent& event)
{
GUI::Painter painter(*this);
painter.clear_rect(event.rect(), m_show_window_frame ? palette().window() : Gfx::Color::Transparent);
draw_face(painter);
auto time = Core::DateTime::now();
auto minute = time.minute() * (2 * M_PI) / 60;
auto hour = (minute + (2 * M_PI) * time.hour()) / 12;
auto seconds = time.second() * (2 * M_PI) / 60;
auto angle_offset = M_PI_2;
draw_hand(painter, minute - angle_offset, m_minute_hand_length, palette().active_window_border2());
draw_hand(painter, hour - angle_offset, m_hour_hand_length, palette().active_window_border1());
draw_seconds_hand(painter, seconds - angle_offset);
if (time.hour() == 0)
update_title_date();
}
void AnalogClock::update_title_date()
{
window()->set_title(Core::DateTime::now().to_string("%Y-%m-%d"sv));
}
void AnalogClock::context_menu_event(GUI::ContextMenuEvent& event)
{
if (on_context_menu_request)
on_context_menu_request(event);
}
void AnalogClock::set_show_window_frame(bool show)
{
if (show == m_show_window_frame)
return;
m_show_window_frame = show;
auto& w = *window();
w.set_frameless(!m_show_window_frame);
w.set_has_alpha_channel(!m_show_window_frame);
}
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