Initial import of the sunrise watchface

2023-06-09 14:33:17 +02:00 · 2023-06-09 14:33:17 +02:00 · f0fef28fca
parent 6bdb7dc0ad
commit f0fef28fca
8 changed files with 2551 additions and 11 deletions
--- a/apps/sunrise/ChangeLog
+++ b/apps/sunrise/ChangeLog
@ -0,0 +1 @@
 0.01: First release
--- a/apps/sunrise/README.md
+++ b/apps/sunrise/README.md
@ -0,0 +1,27 @@
 # sunrise watchface
 This app mimics the Apple Watch watchface that shows the sunrise and sunset time.
 This is a work-in-progress app, so you may expect missfeatures, bugs and heavy
 battery draining. There's still a lot of things to optimize and improve, so take
 this into account before complaining :-)
 * Lat/Lon hardcoded to Barcelona, but it's configurable if you install the "mylocation app"
 * Shows sea level and make the sun/moon glow depending on the x position
 * The sinus is fixed, so the sea level is curved to match the sunrise/sunset positions)
 ## TODO
 * Access GPS on first start to cache lat+lon to compute sunrise/sunset times
 * Cache constant values once
 * Show month and day too?
 * Improved gradients
 * Faster rendering, by reducing sinus stepsize, only refreshing whats needed, etc
 ## Author
 Written by pancake in 2023
 ## Screenshots
 ![sunrise](screenshot.png)
--- a/apps/sunrise/app-icon.js
+++ b/apps/sunrise/app-icon.js
@ -0,0 +1 @@
 require("heatshrink").decompress(atob("mEwwkEIf4A/AH4A/AH4ADgMiAAMgCyoABiAXQiUjkQBCkIXQFYMzAAIEBIyMjn8z+cyMKECFwM+93uGAJIPgUzn4WBC4IwBIx0jC4njmQvOkUSkQXTicQL4JHSgSFBgUyO6QkCU4YWBF4KnLFwTXGIwMQRZQ7EC4IxBAYRHKgQjEVIIXCkcgiQwJQQxhBAAJQCGBBdEABIwIfJwmHFxwnFAYQuOFAuIcAMwC54pE1WpWgURMKUxhUKzWqDYLOKVQh1FGoOTnQaKdAR1HhWqzWKkUykK7GkKkM1WZyRsCGAikPhWZ1EzGoKHBaZ5rEGoQWRNgoXVAH4A5"))
--- a/apps/sunrise/app.js
+++ b/apps/sunrise/app.js
@ -0,0 +1,321 @@
 // banglejs app made by pancake
 // sunrise/sunset script by Matt Kane from https://github.com/Triggertrap/sun-js
 const LOCATION_FILE = 'mylocation.json';
 let location;
 // requires the myLocation app
 function loadLocation () {
  try {
    return require('Storage').readJSON(LOCATION_FILE, 1) || {};
  } catch (e) {
    return { };
  }
 }
 const latlon = loadLocation();
 const lat = latlon.lat || 41.38;
 const lon = latlon.lon || 2.168;
 /**
 *	Sunrise/sunset script. By Matt Kane.
 *
 *  Based loosely and indirectly on Kevin Boone's SunTimes Java implementation
 *  of the US Naval Observatory's algorithm.
 *
 *  Copyright © 2012 Triggertrap Ltd. All rights reserved.
 *
 * This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General
 * Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option)
 * any later version.
 *
 * This library is distributed in the hope that it will be useful,but WITHOUT ANY WARRANTY; without even the implied
 * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public License for more
 * details.
 * You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to
 * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA,
 * or connect to: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html
 */
 Date.prototype.sunrise = function (latitude, longitude, zenith) {
  return this.sunriseSet(latitude, longitude, true, zenith);
 };
 Date.prototype.sunset = function (latitude, longitude, zenith) {
  return this.sunriseSet(latitude, longitude, false, zenith);
 };
 Date.prototype.sunriseSet = function (latitude, longitude, sunrise, zenith) {
  if (!zenith) {
    zenith = 90.8333;
  }
  const hoursFromMeridian = longitude / Date.DEGREES_PER_HOUR;
  const dayOfYear = this.getDayOfYear();
  let approxTimeOfEventInDays;
  let sunMeanAnomaly;
  let sunTrueLongitude;
  let ascension;
  let rightAscension;
  let lQuadrant;
  let raQuadrant;
  let sinDec;
  let cosDec;
  let localHourAngle;
  let localHour;
  let localMeanTime;
  let time;
  if (sunrise) {
    approxTimeOfEventInDays = dayOfYear + ((6 - hoursFromMeridian) / 24);
  } else {
    approxTimeOfEventInDays = dayOfYear + ((18.0 - hoursFromMeridian) / 24);
  }
  sunMeanAnomaly = (0.9856 * approxTimeOfEventInDays) - 3.289;
  sunTrueLongitude = sunMeanAnomaly + (1.916 * Math.sinDeg(sunMeanAnomaly)) + (0.020 * Math.sinDeg(2 * sunMeanAnomaly)) + 282.634;
  sunTrueLongitude = Math.mod(sunTrueLongitude, 360);
  ascension = 0.91764 * Math.tanDeg(sunTrueLongitude);
  rightAscension = 360 / (2 * Math.PI) * Math.atan(ascension);
  rightAscension = Math.mod(rightAscension, 360);
  lQuadrant = Math.floor(sunTrueLongitude / 90) * 90;
  raQuadrant = Math.floor(rightAscension / 90) * 90;
  rightAscension = rightAscension + (lQuadrant - raQuadrant);
  rightAscension /= Date.DEGREES_PER_HOUR;
  sinDec = 0.39782 * Math.sinDeg(sunTrueLongitude);
  cosDec = Math.cosDeg(Math.asinDeg(sinDec));
  cosLocalHourAngle = ((Math.cosDeg(zenith)) - (sinDec * (Math.sinDeg(latitude)))) / (cosDec * (Math.cosDeg(latitude)));
  localHourAngle = Math.acosDeg(cosLocalHourAngle);
  if (sunrise) {
    localHourAngle = 360 - localHourAngle;
  }
  localHour = localHourAngle / Date.DEGREES_PER_HOUR;
  localMeanTime = localHour + rightAscension - (0.06571 * approxTimeOfEventInDays) - 6.622;
  time = localMeanTime - (longitude / Date.DEGREES_PER_HOUR);
  time = Math.mod(time, 24);
  const midnight = new Date(0);
  // midnight.setUTCFullYear(this.getUTCFullYear());
  // midnight.setUTCMonth(this.getUTCMonth());
  // midnight.setUTCDate(this.getUTCDate());
  const milli = midnight.getTime() + (time * 60 * 60 * 1000);
  return new Date(milli);
 };
 Date.DEGREES_PER_HOUR = 360 / 24;
 // Utility functions
 Date.prototype.getDayOfYear = function () {
  const onejan = new Date(this.getFullYear(), 0, 1);
  return Math.ceil((this - onejan) / 86400000);
 };
 Math.degToRad = function (num) {
  return num * Math.PI / 180;
 };
 Math.radToDeg = function (radians) {
  return radians * 180.0 / Math.PI;
 };
 Math.sinDeg = function (deg) {
  return Math.sin(deg * 2.0 * Math.PI / 360.0);
 };
 Math.acosDeg = function (x) {
  return Math.acos(x) * 360.0 / (2 * Math.PI);
 };
 Math.asinDeg = function (x) {
  return Math.asin(x) * 360.0 / (2 * Math.PI);
 };
 Math.tanDeg = function (deg) {
  return Math.tan(deg * 2.0 * Math.PI / 360.0);
 };
 Math.cosDeg = function (deg) {
  return Math.cos(deg * 2.0 * Math.PI / 360.0);
 };
 Math.mod = function (a, b) {
  let result = a % b;
  if (result < 0) {
    result += b;
  }
  return result;
 };
 const delta = 2;
 const sunrise = new Date().sunrise(lat, lon);
 const sr = sunrise.getHours() + ':' + sunrise.getMinutes();
 console.log('sunrise', sunrise);
 const sunset = new Date().sunset(lat, lon);
 const ss = sunset.getHours() + ':' + sunset.getMinutes();
 console.log('sunset', sunset);
 const w = g.getWidth();
 const h = g.getHeight();
 const oy = h / 1.7;
 function ypos (x) {
  const pc = (x * 100 / w);
  return oy + (32 * Math.sin(1.7 + (pc / 16)));
 }
 let sunRiseX = 0;
 let sunSetX = 0;
 function drawSinuses () {
  let x = 0;
  g.setColor(0, 0, 0);
  // g.fillRect(0,oy,w, h);
  g.setColor(1, 1, 1);
  let y = oy;
  for (i = 0; i < w; i++) {
    x = i;
    x2 = x + 6;
    y2 = ypos(i);
    if (x == 0) {
      y = y2;
    }
    g.drawLine(x, y, x2, y2);
    y = y2;
    i += 5; // no need to draw all steps
  }
  // sea level line
  const sl0 = seaLevel(sunrise.getHours());
  const sl1 = seaLevel(sunset.getHours());
  sunRiseX = xfromTime(sunrise.getHours());
  sunSetX = xfromTime(sunset.getHours());
  g.setColor(0.5, 0.5, 1);
  g.drawLine(0, sl0, w, sl1);
  g.setColor(0, 0, 1);
  g.drawLine(0, sl0 + 1, w, sl1 + 1);
  g.setColor(0, 0, 0.5);
  g.drawLine(0, sl0 + 2, w, sl1 + 2);
 }
 function drawTimes () {
  g.setColor(1, 1, 1);
  g.setFont('Vector', 20);
  g.drawString(sr, 10, h - 20);
  g.drawString(ss, w - 60, h - 20);
 }
 let pos = 0;
 let realTime = true;
 const r = 10;
 function drawGlow () {
  const now = new Date();
  if (realTime) {
    pos = xfromTime(now.getHours());
  }
  const x = pos;
  const y = ypos(x - (r / 2));
  const r2 = (x > sunRiseX && x < sunSetX) ? r + 20 : r + 10;
  g.setColor(0.3, 0.3, 0.3);
  g.fillCircle(x, y, r2);
  g.setColor(0.5, 0.5, 0.5);
  g.fillCircle(x, y, r + 3);
 }
 function seaLevel (hour) {
  // hour goes from 0 to 24
  // to get the X we divide the screen in 24
  return ypos(xfromTime(hour));
 }
 function xfromTime (t) {
  return (w / 24) * t;
 }
 function drawBall () {
  let x = pos;
  const now = new Date();
  if (realTime) {
    x = xfromTime(now.getHours());
    pos = x;
  }
  const y = ypos(x - (r / 2));
  // glow
  g.setColor(1, 1, 0);
  if (x < sunRiseX) {
    g.setColor(0.2, 0.2, 0);
  } else if (x > sunSetX) {
    g.setColor(0.2, 0.2, 0);
  }
  g.fillCircle(x, y, r);
  g.setColor(1, 1, 1);
  g.drawCircle(x, y, r);
  let curTime = '';
  let fhours = 0.0;
  let fmins = 0.0;
  if (realTime) {
    fhours = now.getHours();
    fmins = now.getMinutes();
  } else {
    fhours = 24 * (pos / w);
    if (fhours > 23) {
      fhours = 0;
    }
    fmins = (24 - fhours) % 60;
    if (fmins < 0) {
      fmins = 0;
    }
  }
  const hours = ((fhours < 10) ? '0' : '') + (0 | fhours);
  const mins = ((fmins < 10) ? '0' : '') + (0 | fmins);
  curTime = hours + ':' + mins;
  g.setFont('Vector', 30);
  g.setColor(1, 1, 1);
  g.drawString(curTime, w / 1.9, 32);
 }
 function renderScreen () {
  g.setBgColor(0, 0, 0);
  g.clear();
  if (realTime) {
    Bangle.loadWidgets();
    Bangle.drawWidgets();
  }
  drawGlow();
  drawSinuses();
  drawTimes();
  drawBall();
 }
 Bangle.on('drag', function (tap, top) {
  pos = tap.x;
  realTime = false;
  renderScreen();
 });
 Bangle.on('lock', () => {
  realTime = Bangle.isLocked();
  renderScreen();
 });
 Bangle.on('tap', () => {
  realTime = true;
  renderScreen();
 });
 renderScreen();
 setInterval(renderScreen, 60 * 1000);
--- a/apps/sunrise/app.png
+++ b/apps/sunrise/app.png
--- a/apps/sunrise/metadata.json
+++ b/apps/sunrise/metadata.json
@ -0,0 +1,31 @@
 {
  "id": "sunrise",
  "name": "Sunrise",
  "shortName": "Sunrise",
  "version": "0.01",
  "type": "clock",
  "description": "Show sunrise and sunset times",
  "icon": "app.png",
  "allow_emulator": true,
  "tags": "clock",
  "supports": [
    "BANGLEJS2"
  ],
  "readme": "README.md",
  "storage": [
    {
      "name": "sunrise.app.js",
      "url": "app.js"
    },
    {
      "name": "sunrise.img",
      "url": "app-icon.js",
      "evaluate": true
    }
  ],
  "screenshots": [
    {
      "url": "screenshot.png"
    }
  ]
 }
--- a/apps/sunrise/screenshot.png
+++ b/apps/sunrise/screenshot.png
--- a/package-lock.json
+++ b/package-lock.json
		`@ -0,0 +1 @@`
							`require("heatshrink").decompress(atob("mEwwkEIf4A/AH4A/AH4ADgMiAAMgCyoABiAXQiUjkQBCkIXQFYMzAAIEBIyMjn8z+cyMKECFwM+93uGAJIPgUzn4WBC4IwBIx0jC4njmQvOkUSkQXTicQL4JHSgSFBgUyO6QkCU4YWBF4KnLFwTXGIwMQRZQ7EC4IxBAYRHKgQjEVIIXCkcgiQwJQQxhBAAJQCGBBdEABIwIfJwmHFxwnFAYQuOFAuIcAMwC54pE1WpWgURMKUxhUKzWqDYLOKVQh1FGoOTnQaKdAR1HhWqzWKkUykK7GkKkM1WZyRsCGAikPhWZ1EzGoKHBaZ5rEGoQWRNgoXVAH4A5"))`