gergely/wl-seasonal-hours-clock
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wl-seasonal-hours-clock/src/main.rs

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extern crate smithay_client_toolkit as sctk;
use std::fmt;
use std::time::SystemTime;
use chrono::prelude::Local;
use chrono::TimeZone;
use chrono::Timelike;
use sctk::reexports::client::protocol::{wl_shm, wl_surface};
use sctk::shm::AutoMemPool;
use sctk::window::{Event as WEvent, FallbackFrame};
use svg::node::element::path::Data as PathData;
use svg::node::element::{
Circle, Definitions, Group, Line, Path, Rectangle, Style, Text, TextPath,
};
use svg::node::Text as TextNode;
use svg::Document;
sctk::default_environment!(SeasonalClock, desktop);
const HOUR_NAMES: [&str; 24] = [
"Candle", "Ice", "Comet", "Thimble", "Root", "Mist", "Sprout", "Rainbow", "Worm", "Bud",
"Blossom", "Ladybug", "Geese", "Dust", "Peach", "Fog", "Acorn", "Gourd", "Soup", "Crow",
"Mushroom", "Thunder", "Frost", "Lantern",
];
enum Season {
Spring,
Summer,
Autumn,
Winter,
}
impl fmt::Display for Season {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "{}", match self {
Season::Spring => "spring",
Season::Summer => "summer",
Season::Autumn => "autumn",
Season::Winter => "winter",
})
}
}
fn seconds_to_degrees(seconds: i32) -> f32 {
seconds as f32 * 360.0 / 86400.0
}
fn time_to_degrees(timestamp: i32, // should be time/timestamp
) -> f32 {
seconds_to_degrees(timestamp)
}
fn hour_name_path(image_width: u32, outer_r: f32, ring_width: f32) -> Path {
let radius = outer_r - ring_width / 2.0;
let delta_x = radius * (15.0_f32.to_radians() / 2.0).sin();
let delta_y = radius * (1.0 - (15.0_f32.to_radians() / 2.0).cos());
let x1 = (image_width as f32) / 2.0 - delta_x;
let y1 = ((image_width as f32) / 2.0 - radius) + delta_y;
let path_data = PathData::new().move_to((x1, y1)).elliptical_arc_by((
radius,
radius,
15,
0,
1,
2.0 * delta_x,
0,
));
Path::new().set("id", "hour-name-path").set("d", path_data)
}
fn hour_marker(
hour: i32,
image_width: u32,
outer_r: f32,
ring_width: f32,
hour_name_font_size: f32,
utc_hour_font_size: f32,
) -> Group {
let rotation = hour * 15;
let delta_x = outer_r * (15f32.to_radians() / 2.0).sin();
let delta_y = outer_r * (1.0 - (15f32.to_radians() / 2.0).cos());
let s_delta_x = 0.0 - ring_width * (15f32.to_radians() / 2.0).sin();
let s_delta_y = ring_width * (15f32.to_radians() / 2.0).cos();
let i_delta_x = -2.0 * (outer_r - ring_width) * (15f32.to_radians() / 2.0).sin();
let x1 = image_width as f32 / 2.0 - delta_x;
let y1 = (image_width as f32 / 2.0 - outer_r) + delta_y;
let utc_hour_y = image_width as f32 / 2.0 - outer_r + ring_width + utc_hour_font_size;
let path_data = PathData::new()
.move_to((x1, y1))
.elliptical_arc_by((outer_r, outer_r, 15, 0, 1, 2.0 * delta_x, 0))
.line_by((s_delta_x, s_delta_y))
.elliptical_arc_by((
outer_r - ring_width,
outer_r - ring_width,
15,
0,
0,
i_delta_x,
0,
))
.close();
let path = Path::new().set("d", path_data);
let hour_name_text_path = TextPath::new()
.set("xlink:href", "#hour-name-path")
.set("startOffset", "50%")
.add(TextNode::new(HOUR_NAMES[hour as usize]));
let hour_name_text = Text::new()
.set("text-anchor", "middle")
.set("dominant-baseline", "mathematical")
.set("font-size", hour_name_font_size)
.add(hour_name_text_path);
let utc_hour_text = Text::new()
.set("class", "utc")
.set(
"transform",
format!("rotate(-7.5, {}, {})", image_width / 2, image_width / 2),
)
.set("x", image_width / 2)
.set("y", utc_hour_y)
.set("text-anchor", "middle")
.set("dominant-baseline", "mathematical")
.set("font-size", utc_hour_font_size)
.add(TextNode::new(format!("U {:02}", hour)));
Group::new()
.set("class", "hour")
.set(
"transform",
format!(
"rotate({}, {}, {})",
rotation as f32 - 172.5,
image_width / 2,
image_width / 2
),
)
.add(path)
.add(hour_name_text)
.add(utc_hour_text)
}
fn get_range_path(
image_width: u32,
radius: f32,
range_name: &str,
start_time: i32,
end_time: i32,
) -> Path {
let start_deg = time_to_degrees(start_time);
let end_deg = time_to_degrees(end_time);
let deg_diff = end_deg - start_deg;
let start_delta_x = radius * start_deg.to_radians().sin();
let start_delta_y = radius * (1.0 - start_deg.to_radians().cos());
let end_delta_x = radius * end_deg.to_radians().sin();
let end_delta_y = radius * (1.0 - end_deg.to_radians().cos());
let large_arc_flag = if deg_diff.abs() >= 180.0 { 0 } else { 1 };
let path_data = PathData::new()
.move_to((image_width / 2, image_width / 2))
.line_to((
image_width as f32 / 2.0 - start_delta_x,
image_width as f32 / 2.0 + radius - start_delta_y,
))
.elliptical_arc_to((
radius,
radius,
deg_diff,
large_arc_flag,
0,
image_width as f32 / 2.0 - end_delta_x,
image_width as f32 / 2.0 + radius - end_delta_y,
))
.close();
Path::new().set("class", range_name).set("d", path_data)
}
fn get_moon_path(image_width: u32, radius: f32, moon_phase: f64) -> Path {
let handle_x_pos = radius as f64 * 1.34;
let handle_y_pos = radius * 0.88;
let min_x = image_width as f64 / 2.0 - handle_x_pos;
let max_x = min_x + 2.0 * handle_x_pos;
let top_y = image_width as f32 / 2.0 - handle_y_pos;
let bottom_y = image_width as f32 / 2.0 + handle_y_pos;
let h1_x: f64;
let h2_x: f64;
if moon_phase < 14.0 {
h1_x = min_x + 2.0 * handle_x_pos * (1.0 - moon_phase / 14.0);
h2_x = max_x;
} else {
h1_x = min_x;
h2_x = max_x + 2.0 * handle_x_pos * (1.0 - moon_phase / 14.0)
}
let path_data = PathData::new()
.move_to((image_width as f32 / 2.0, image_width as f32 / 2.0 - radius))
.cubic_curve_to((
h1_x,
top_y,
h1_x,
bottom_y,
image_width as f32 / 2.0,
image_width as f32 / 2.0 + radius,
))
.cubic_curve_to((
h2_x,
bottom_y,
h2_x,
top_y,
image_width / 2,
image_width as f32 / 2.0 - radius,
));
Path::new().set("class", "moon").set("d", path_data)
}
fn gen_svg() -> Document {
let local_timestamp = Local::now();
let utc_offset = local_timestamp.offset().local_minus_utc();
let local_time = local_timestamp.time().num_seconds_from_midnight() as i32;
// TODO: Make these configurable
let lat = 47.655235;
let long = 19.2868815;
// TODO: These should be calculated instead of hardcoded
let image_width = 700u32;
// Calculate the Moon phase
let unixtime = suncalc::Timestamp(local_timestamp.timestamp_millis());
let moon_illumination = suncalc::moon_illumination(unixtime);
let moon_radius = image_width as f32 * 0.071428571;
let moon_phase = moon_illumination.phase * 28.0;
let sun_times = suncalc::get_times(unixtime, lat, long, None);
let noon = Local
.timestamp_millis(sun_times.solar_noon.0)
.time()
.num_seconds_from_midnight() as i32;
let midnight = Local
.timestamp_millis(sun_times.nadir.0)
.time()
.num_seconds_from_midnight() as i32;
let morning_golden_end = Local
.timestamp_millis(sun_times.golden_hour_end.0)
.time()
.num_seconds_from_midnight() as i32;
let evening_golden_start = Local
.timestamp_millis(sun_times.golden_hour.0)
.time()
.num_seconds_from_midnight() as i32;
let sunrise = Local
.timestamp_millis(sun_times.sunrise.0)
.time()
.num_seconds_from_midnight() as i32;
let sunset = Local
.timestamp_millis(sun_times.sunset.0)
.time()
.num_seconds_from_midnight() as i32;
let dawn = Local
.timestamp_millis(sun_times.dawn.0)
.time()
.num_seconds_from_midnight() as i32;
let dusk = Local
.timestamp_millis(sun_times.dusk.0)
.time()
.num_seconds_from_midnight() as i32;
let local_hour_font_size = image_width as f32 * 0.02357;
let hour_name_font_size = image_width as f32 * 0.019109;
let utc_hour_font_size = image_width as f32 * 0.021462;
let outer_r = (image_width as f32) / 2.0 - 3.0 * hour_name_font_size;
let ring_width = hour_name_font_size * 3.0;
let sun_radius = image_width as f32 * 0.0142871;
let marker_radius = outer_r - ring_width - 2.0 * utc_hour_font_size;
let border = Rectangle::new()
.set("x", 0i32)
.set("y", 0i32)
.set("width", 700i32)
.set("height", 700i32)
.set("id", "border");
let stylesheet = Style::new(
"\
#border {stroke: none; fill: rgb(19, 17, 30); }
.hour path {stroke: rgb(0, 0, 0); stroke-width: 2px;}
.hour text {stroke: none; fill: rgb(238, 187, 85);}
.hour text.utc {stroke: none; fill: rgb(91, 68, 38);}
.local-hour {stroke: none; fill: rgb(238, 187, 85);}
.night-time {stroke: none; fill: rgb(19, 17, 30);}
.blue-hour {stroke: none; fill: rgb(9, 1, 119);}
.golden-hour {stroke: none; fill: rgb(170, 132, 44);}
.day-time {stroke: none; fill: rgb(125, 197, 240);}
.marker {stroke: rgb(19, 17, 30); stroke-width: 2px; fill: none;}
.moon-background {stroke: rgb(170, 170, 170); stroke-width: 2px; fill: rgb(19, 17, 30);}
.moon {stroke: none; fill: rgb(170, 170, 170);}
.sun {stroke: none; fill: rgb(238, 187, 85);}
.mid-marker {stroke: red;}
.dial {stroke-width: 2px; stroke: rgb(238, 187, 85);}",
);
let definitions = Definitions::new().add(hour_name_path(image_width, outer_r, ring_width));
let mut local_clock = Group::new().set("id", "local-clock");
for hour in 0i32..24 {
let hour_str = match hour {
0 => "Midnight".to_string(),
12 => "Noon".to_string(),
_ => hour.to_string(),
};
let rotation = hour * 15;
let hour_name = TextNode::new(hour_str);
let hour_node = Text::new()
.set("class", "local-hour")
.set("transform", format!("rotate({}, 350, 350)", 180 + rotation))
.set("x", (image_width as f32) / 2.0)
.set(
"y",
(image_width as f32) / 2.0 - outer_r - local_hour_font_size / 2.0,
)
.set("text-anchor", "middle")
.set("font-size", local_hour_font_size as f32)
.add(hour_name);
local_clock = local_clock.add(hour_node);
}
let mut seasonal_clock = Group::new().set(
"transform",
format!(
"rotate({}, {}, {})",
seconds_to_degrees(utc_offset),
image_width / 2,
image_width / 2
),
);
for hour in 0i32..24 {
seasonal_clock = seasonal_clock.add(hour_marker(
hour,
image_width,
outer_r,
ring_width,
hour_name_font_size,
utc_hour_font_size,
));
}
let daytime_circle = Circle::new()
.set("class", "day-time")
.set("cx", image_width / 2)
.set("cy", image_width / 2)
.set("r", marker_radius);
let golden_hour_path = get_range_path(
image_width,
marker_radius,
"golden-hour",
morning_golden_end,
evening_golden_start,
);
let sun_disc = Circle::new()
.set("class", "sun")
.set("cx", image_width / 2)
.set("cy", image_width as f32 / 2.0 + outer_r / 2.0 + sun_radius)
.set("r", sun_radius)
.set(
"transform",
format!(
"rotate({}, {}, {})",
time_to_degrees(local_time),
image_width / 2,
image_width / 2
),
);
let blue_hour_path = get_range_path(
image_width,
marker_radius,
"blue-hour",
sunrise, // morning_blue_end
sunset, // evening_blue_start
);
let nighttime_path = get_range_path(image_width, marker_radius, "night-time", dawn, dusk);
let marker_circle = Circle::new()
.set("class", "marker")
.set("cx", image_width / 2)
.set("cy", image_width / 2)
.set("r", marker_radius);
let day_parts_group = Group::new()
.set("id", "day-parts")
.add(daytime_circle)
.add(golden_hour_path)
.add(sun_disc)
.add(blue_hour_path)
.add(nighttime_path)
.add(marker_circle);
let moon_circle = Circle::new()
.set("class", "moon-background")
.set("cx", image_width / 2)
.set("cy", image_width / 2)
.set("r", moon_radius);
let moon_group = Group::new()
.set("id", "moon-container")
.add(moon_circle)
.add(get_moon_path(image_width, moon_radius, moon_phase));
let noon_marker = Line::new()
.set("class", "mid-marker")
.set(
"transform",
format!(
"rotate({}, {}, {})",
time_to_degrees(noon),
image_width / 2,
image_width / 2
),
)
.set("x1", image_width / 2)
.set(
"y1",
image_width as f32 / 2.0 + marker_radius - sun_radius as f32,
)
.set("x2", image_width / 2)
.set("y2", image_width as f32 / 2.0 + marker_radius);
let midnight_marker = Line::new()
.set("class", "mid-marker")
.set(
"transform",
format!(
"rotate({}, {}, {})",
time_to_degrees(midnight),
image_width / 2,
image_width / 2
),
)
.set("x1", image_width / 2)
.set(
"y1",
image_width as f32 / 2.0 + marker_radius - sun_radius as f32,
)
.set("x2", image_width / 2)
.set("y2", image_width as f32 / 2.0 + marker_radius);
let dial = Line::new()
.set("id", "dial")
.set("class", "dial")
.set(
"transform",
format!(
"rotate({}, {}, {})",
time_to_degrees(local_time),
image_width / 2,
image_width / 2
),
)
.set("x1", image_width / 2)
.set("y1", image_width as f32 / 2.0 + outer_r * 0.5)
.set("x2", image_width / 2)
.set(
"y2",
image_width as f32 / 2.0 + outer_r - ring_width + hour_name_font_size,
);
Document::new()
.set("viewBox", (0i32, 0i32, 700i32, 700i32))
.set("width", 700i32)
.set("height", 700i32)
.set("xmlns:xlink", "http://www.w3.org/1999/xlink")
.add(stylesheet)
.add(definitions)
.add(border)
.add(local_clock)
.add(day_parts_group)
.add(seasonal_clock)
.add(moon_group)
.add(noon_marker)
.add(midnight_marker)
.add(dial)
}
fn main() {
let (env, display, mut queue) = sctk::new_default_environment!(SeasonalClock, desktop)
.expect("Unable to connect to a Wayland compositor");
let surface = env
.create_surface_with_scale_callback(|dpi, _surface, _dispatch_data| {
println!("dpi changed to {}", dpi);
})
.detach();
let mut next_action = None::<WEvent>;
let mut window = env
.create_window::<FallbackFrame, _>(
surface,
None,
(100, 100),
move |evt, mut dispatch_data| {
let next_action = dispatch_data.get::<Option<WEvent>>().unwrap();
let replace = matches!(
(&evt, &*next_action),
(_, &None)
| (_, &Some(WEvent::Refresh))
| (&WEvent::Configure { .. }, &Some(WEvent::Configure { .. }))
| (&WEvent::Close, _)
);
if replace {
*next_action = Some(evt);
}
},
)
.expect("Failed to create a window !");
window.set_title("Seasonal Hours Clock".to_string());
let mut pool = env
.create_auto_pool()
.expect("Failed to create the memory pool.");
let mut need_redraw = false;
let mut dimensions = (700, 700);
if !env.get_shell().unwrap().needs_configure() {
redraw(&mut pool, window.surface(), dimensions).expect("Failed to draw");
window.refresh()
}
let now = SystemTime::now();
let mut last_elapsed = 0;
loop {
// Update every second
// TODO: Theres probably a better way to do this…
match now.elapsed() {
Ok(elapsed) => {
let new_elapsed = elapsed.as_secs();
if new_elapsed != last_elapsed {
need_redraw = true;
last_elapsed = new_elapsed;
}
}
Err(e) => {
println!("Error: {:?}", e);
}
}
match next_action.take() {
Some(WEvent::Close) => break,
Some(WEvent::Refresh) => {
window.refresh();
window.surface().commit();
}
Some(WEvent::Configure {
new_size,
states: _,
}) => {
if let Some((w, h)) = new_size {
if dimensions != (w, h) {
dimensions = (w, h);
}
}
window.resize(dimensions.0, dimensions.1);
window.refresh();
need_redraw = true;
}
None => {}
}
if need_redraw {
need_redraw = false;
redraw(&mut pool, window.surface(), dimensions).expect("Failed to draw")
}
if let Err(e) = display.flush() {
if e.kind() != ::std::io::ErrorKind::WouldBlock {
eprintln!("Error while trying to flush the wayland socket: {:?}", e);
}
}
if let Some(guard) = queue.prepare_read() {
if let Err(e) = guard.read_events() {
if e.kind() != ::std::io::ErrorKind::WouldBlock {
eprintln!(
"Error while trying to read from the wayland socked: {:?}",
e
);
}
}
}
queue
.dispatch_pending(&mut next_action, |_, _, _| {})
.expect("Failed to dispatch all messages.");
}
}
fn redraw(
pool: &mut AutoMemPool,
surface: &wl_surface::WlSurface,
(buf_x, buf_y): (u32, u32),
) -> Result<(), ::std::io::Error> {
let document = gen_svg();
let bytes = document.to_string();
let mut opt = usvg::Options::default();
opt.fontdb.load_system_fonts();
opt.font_family = "Liberation Serif".to_string();
let svg_tree = usvg::Tree::from_str(&bytes, &opt.to_ref()).unwrap();
let (canvas, new_buffer) = pool.buffer(
buf_x as i32,
buf_y as i32,
4 * buf_x as i32,
wl_shm::Format::Argb8888,
)?;
let image_size = ::std::cmp::min(buf_x, buf_y);
let move_x = (buf_x - image_size) as f32 / 2.0;
let move_y = (buf_y - image_size) as f32 / 2.0;
let mut pixmap = tiny_skia::Pixmap::new(buf_x, buf_y).unwrap();
// pre-fill the pixmap with our background color so we dont have a white strip at the edges
pixmap.fill(
tiny_skia::Color::from_rgba(19f32 / 255f32, 17f32 / 255f32, 30f32 / 255f32, 1f32).unwrap(),
);
resvg::render(
&svg_tree,
usvg::FitTo::Size(image_size, image_size),
tiny_skia::Transform::from_translate(move_x, move_y),
pixmap.as_mut(),
)
.unwrap();
// We do not have anything to draw yet, so draw an empty surface
for (dst_pixel, src_pixel) in canvas.chunks_exact_mut(4).zip(pixmap.pixels()) {
let r = src_pixel.red() as u32;
let g = src_pixel.green() as u32;
let b = src_pixel.blue() as u32;
let a = src_pixel.alpha() as u32;
let r = ::std::cmp::min(0xFF, (0xFF * (0xFF - a) + a * r) / 0xFF);
let g = ::std::cmp::min(0xFF, (0xFF * (0xFF - a) + a * g) / 0xFF);
let b = ::std::cmp::min(0xFF, (0xFF * (0xFF - a) + a * b) / 0xFF);
let pixel: [u8; 4] = ((0xFF << 24) + (r << 16) + (g << 8) + b).to_ne_bytes();
dst_pixel[0] = pixel[0];
dst_pixel[1] = pixel[1];
dst_pixel[2] = pixel[2];
dst_pixel[3] = pixel[3];
}
surface.attach(Some(&new_buffer), 0, 0);
if surface.as_ref().version() >= 4 {
surface.damage_buffer(0, 0, buf_x as i32, buf_y as i32);
} else {
surface.damage(0, 0, buf_x as i32, buf_y as i32);
}
surface.commit();
Ok(())
}
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