thyttan
GitHub
commit
d782914f88
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@ -1,4 +1,5 @@
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0.01: First functional release
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0.02: move moon down, rotate sunrise/sunset, shift Hours/minutes to corners
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0.03: Change day and night to have different dots
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0.04: Update ChangeLog, coerce dark theme
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0.04: Update ChangeLog, coerce dark theme
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0.05: Add more screenshots, fix bug in dot colors
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@ -8,11 +8,13 @@ This uses the myLocation app to get your latitude and longitude for proper dayli
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Feature roadmap:
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- [x] 0.01 Fix blocking widgets
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- [x] 0.03 Day and Night different color markers
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- [ ] 0.05 add Day of week and month display
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- [ ] 0.06 Seconds display
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- [ ] 0.07 Color Themes (and settings/options)
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- [ ] 0.08 Moon display angle represents how it looks in the sky
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- [x] 0.04 Add to App Loader
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- [x] 0.05 Add more screenshots with different moon phases
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- [ ] 0.06 add Day of week and month display
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- [ ] 0.07 Seconds display
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- [ ] 0.08 Color Themes (and settings/options)
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- [ ] 0.09 Moon display angle represents how it looks in the sky
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- [ ] 0.10 custom/bigger/fitted time digits
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- [ ] 0.20 clockinfo support?
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- [ ] 0.30 Tap/swipe actions?
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@ -4,42 +4,46 @@ let location;
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var Utils = require("graphics_utils");
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var SunCalc = require("suncalc");
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var RADII = {
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moon: 40,
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arcMin: 48,
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arcMax: 63,
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dots: 55,
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needle: 54,
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moon: 40,
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arcMin: 48,
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arcMax: 63,
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dots: 55,
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needle: 54,
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};
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var COL = {
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moon: 65535, //
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txture: 33792, // 0.5 ,0.5,0
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shadow: 8196, // .125,0, .125
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day: 40159, //0.6, 0.6,1
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night: 6, // 0, 0, 0.2
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ndots: 2047, // 0, 1, 1 cyan
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ddots: 0,
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needle: 63488, // 1, 0, 0 red
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stime: 2047
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moon: 65535, //
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txture: 33792, // 0.5 ,0.5,0
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shadow: 8196, // .125,0, .125
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day: 40159, //0.6, 0.6,1
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night: 6, // 0, 0, 0.2
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ndots: 2047, // 0, 1, 1 cyan
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ddots: 0,
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needle: 63488, // 1, 0, 0 red
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stime: 2047
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};
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const TAU = 2.0 * Math.PI;
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const MX = g.getWidth() / 2,
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MY = 24 + 3 + RADII.arcMax;
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MY = 24 + 3 + RADII.arcMax;
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const DAY_MILLIS = 86400000;
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const M_POS = { x: MX, y: MY, r: RADII.moon };
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const M_POS = {
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x: MX,
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y: MY,
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r: RADII.moon
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};
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// images
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const moon_texture = {
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width: 80,
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height: 80,
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bpp: 1,
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transparent: 0,
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buffer: require("heatshrink").decompress(atob("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"))
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width: 80,
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height: 80,
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bpp: 1,
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transparent: 0,
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buffer: require("heatshrink").decompress(atob("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"))
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};
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const needle = {
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width: 23,
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height: 11,
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bpp: 1,
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transparent: 0,
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buffer: atob("///B///D///AAAPAAAHAAAHAAAcAADz///H//8P//wA=")
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width: 23,
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height: 10,
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bpp: 1,
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transparent: 0,
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buffer: atob("//+B///D///AAAHgAADgAAHAAA9///j//+H//gA=")
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};
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/*
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@ -52,139 +56,173 @@ const needle = {
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// requires the myLocation app
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function loadLocation() {
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location = require("Storage").readJSON(LOCATION_FILE, 1) || { "lat": 45, "lon": -71.3, "location": "Nashua" }; //{"lat":51.5072,"lon":0.1276,"location":"London"};
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location = require("Storage").readJSON(LOCATION_FILE, 1) || {
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"lat": 45,
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"lon": -71.3,
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"location": "Nashua"
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}; //{"lat":51.5072,"lon":0.1276,"location":"London"};
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}
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function drawMoon(shadowShape) {
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g.setColor(0, 0, 0).fillCircle(MX, MY, RADII.arcMax + 3);
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g.setColor(COL.moon).fillCircle(MX, MY, RADII.moon);
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g.setColor(COL.txture).drawImage(moon_texture, MX, MY, { rotate: 0 });
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// TODO: can set the rotation here to the parallacticAngle from getMoonPosition
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g.setColor(COL.shadow).fillPoly(shadowShape);
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// TODO: set rotation of the fillPoly? parallactic-mp.angle I think.
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// Use g.transformVertices to do the rotation
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g.setColor(0, 0, 0).fillCircle(MX, MY, RADII.arcMax + 3);
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g.setColor(COL.moon).fillCircle(MX, MY, RADII.moon - 1);
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g.setColor(COL.txture).drawImage(moon_texture, MX, MY, {
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rotate: 0
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});
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// TODO: can set the rotation here to the parallacticAngle from getMoonPosition
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g.setColor(COL.shadow).fillPoly(shadowShape);
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// TODO: set rotation of the fillPoly? parallactic-mp.angle I think.
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// Use g.transformVertices to do the rotation
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}
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function drawDayRing(times) {
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let r_ = RADII.arcMin;
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let rm = RADII.arcMax;
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let rd = RADII.dots;
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let radT = [tToRad(times[0]), tToRad(times[1])];
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let hhmm = [require("locale").time(times[0], 1), require("locale").time(times[1], 1)];
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g.setColor(COL.day);
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Utils.fillArc(g, MX, MY, r_, rm, radT[0], radT[1]);
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g.setColor(COL.night);
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Utils.fillArc(g, MX, MY, r_, rm, radT[1] - TAU, radT[0]);
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// write sunrise/sunset times
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g.setFont('6x8').setColor(COL.stime);
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g.setFontAlign(0, 1, 3).drawString(hhmm[0], MX - rm - 2, MY);
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g.setFontAlign(0, 1, 1).drawString(hhmm[1], MX + rm + 2, MY);
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// draw dots
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let edges = [];
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let isDay = false;
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let flag = false;
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if (radT[1] > TAU) {
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edges = [radT[1] - TAU, radT[0]];
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g.setColor(COL.ddots);
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isDay = true;
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} else {
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edges = [radT[0], radT[1]];
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let r_ = RADII.arcMin;
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let rm = RADII.arcMax;
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let rd = RADII.dots;
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let radT = [tToRad(times[0]), tToRad(times[1])];
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let hhmm = [require("locale").time(times[0], 1), require("locale").time(times[1], 1)];
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g.setColor(COL.day);
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Utils.fillArc(g, MX, MY, r_, rm, radT[0], radT[1]);
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g.setColor(COL.night);
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Utils.fillArc(g, MX, MY, r_, rm, radT[1] - TAU, radT[0]);
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// write sunrise/sunset times
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g.setFont('6x8').setColor(COL.stime);
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g.setFontAlign(0, 1, 3).drawString(hhmm[0], MX - rm - 2, MY);
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g.setFontAlign(0, 1, 1).drawString(hhmm[1], MX + rm + 2, MY);
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// draw dots
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let edges = [];
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let isDay = false;
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let flag = false;
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if (radT[1] > TAU) {
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edges = [radT[1] - TAU, radT[0]];
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g.setColor(COL.ddots);
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isDay = true;
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} else {
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edges = [radT[0], radT[1]];
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g.setColor(COL.ndots);
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isDay = false;
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}
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for (var i = 0; i < 24; i++) {
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let a = i * TAU / 24;
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if (!flag && a > edges[0] && a < edges[1]) {
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//first cross
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if (isDay) {
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g.setColor(COL.ndots);
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isDay = false;
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}
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for (var i = 0; i < 24; i++) {
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let a = i * TAU / 24;
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if (!flag && a > edges[0]) {
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//first cross
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if (isDay) { g.setColor(COL.ndots); } else { g.setColor(COL.ddots); }
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flag = true;
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} else if (flag && a > edges[1]) {
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//second cross
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if (isDay) { g.setColor(COL.ddots); } else { g.setColor(COL.ndots); }
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flag = false;
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}
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let dotSize = (i % 3 == 0) ? 2 : 1;
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let pX = MX + Math.cos(a) * rd;
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let pY = MY + Math.sin(a) * rd;
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g.fillCircle(pX, pY, dotSize);
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}
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let labels = ['6P', '12A', '6A', '12P'];
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let qX = [rd - 9, 2, 11 - rd, 2];
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let qY = [1, rd - 10, 1, 12 - rd];
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g.setFont('4x6').setFontAlign(0, 0, 0).setColor(COL.ndots);
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for (var j = 0; j < 4; j++) {
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g.drawString(labels[j], MX + qX[j], MY + qY[j]);
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} else {
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g.setColor(COL.ddots);
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}
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flag = true;
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} else if (flag && a > edges[1]) {
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//second cross
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if (isDay) {
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g.setColor(COL.ddots);
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} else {
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g.setColor(COL.ndots);
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}
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flag = false;
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}
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let dotSize = (i % 3 == 0) ? 2 : 1;
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let pX = MX + Math.cos(a) * rd;
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let pY = MY + Math.sin(a) * rd;
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g.fillCircle(pX, pY, dotSize);
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}
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let labels = ['6P', '12A', '6A', '12P'];
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let qX = [rd - 9, 2, 11 - rd, 2];
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let qY = [1, rd - 10, 1, 12 - rd];
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g.setFont('4x6').setFontAlign(0, 0, 0).setColor(COL.ndots);
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for (var j = 0; j < 4; j++) {
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g.drawString(labels[j], MX + qX[j], MY + qY[j]);
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}
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}
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function drawHHMM(d) {
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var HM = require("locale").time(d, 1 /*omit seconds*/ ).split(":");
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// write digital time
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g.setBgColor(0, 0, 0).setColor(1, 1, 1).setFontVector(45);
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g.setFontAlign(1, 1, 0).drawString(" " + HM[0], MX - 20, g.getHeight() + 3);
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g.setFontAlign(-1, 1, 0).drawString(HM[1] + " ", MX + 30, g.getHeight() + 3);
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// TODO: use the meridian text AM/PM or blank for 24 hr.
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// var meridian = require("locale").meridian(d);
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var HM = require("locale").time(d, 1 /*omit seconds*/ ).split(":");
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// write digital time
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g.setBgColor(0, 0, 0).setColor(1, 1, 1).setFontVector(45);
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g.setFontAlign(1, 1, 0).drawString(" " + HM[0], MX - 20, g.getHeight() + 3);
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g.setFontAlign(-1, 1, 0).drawString(HM[1] + " ", MX + 30, g.getHeight() + 3);
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// TODO: use the meridian text AM/PM or blank for 24 hr.
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// var meridian = require("locale").meridian(d);
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}
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function moonShade(pos, mp) {
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pos = pos !== undefined ? pos : M_POS;
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mp = mp !== undefined ? mp : SunCalc.getMoonIllumination(new Date());
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// pos has x,y, r for the drawing, mp is from SunCalc Moon Illumination
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let k = mp.fraction;
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// k is the percent along the equator of the terminator
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const pts = Math.min(pos.r >> 1, 32);
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// this gives r/2 pts on the way down and up, capped at 64 total for polyfill
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let a = [],
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b = [],
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s1 = 1,
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s2 = 0;
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// scale s1 is 1 or -1 for fixed edge of the shadow; defined via case switches below
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// scale s2 factor for the moving edge of the shadow
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// need to do some computation to simplify for new/full moon if k 'close enough' to 0 or 1/-1
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//
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let isWaxing = (mp.phase < 0.5);
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s1 = isWaxing ? -1 : 1;
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s2 = isWaxing ? 1 - 2 * k : 2 * k - 1;
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let tr = (pos.r + 0.5);
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for (var i = 0; i < pts; i++) {
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// down stroke on the outer shadow
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var t = i * Math.PI / (pts + 1); //pts+1 so we leave the last point for the starting of going up
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let cirX = Math.sin(t) * tr;
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let cirY = Math.cos(t) * tr;
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a.push(pos.x + s1 * cirX); //x
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a.push(pos.y + cirY); //y
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b.push(pos.x + s2 * cirX); //x for shadow edge
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b.push(pos.y - cirY); //y going up for shadow edge
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}
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return a.concat(b);
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pos = pos !== undefined ? pos : M_POS;
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mp = mp !== undefined ? mp : SunCalc.getMoonIllumination(new Date());
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// pos has x,y, r for the drawing, mp is from SunCalc Moon Illumination
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let k = mp.fraction;
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// k is the percent along the equator of the terminator
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const pts = Math.min(pos.r >> 1, 32);
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// this gives r/2 pts on the way down and up, capped at 64 total for polyfill
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let a = [],
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b = [],
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s1 = 1,
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s2 = 0;
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// scale s1 is 1 or -1 for fixed edge of the shadow; defined via case switches below
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// scale s2 factor for the moving edge of the shadow
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// need to do some computation to simplify for new/full moon if k 'close enough' to 0 or 1/-1
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//
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let isWaxing = (mp.phase < 0.5);
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s1 = isWaxing ? -1 : 1;
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s2 = isWaxing ? 1 - 2 * k : 2 * k - 1;
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let tr = (pos.r + 1);
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for (var i = 0; i < pts; i++) {
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// down stroke on the outer shadow
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var t = i * Math.PI / (pts + 1); //pts+1 so we leave the last point for the starting of going up
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let cirX = Math.sin(t) * tr;
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let cirY = Math.cos(t) * tr;
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a.push(pos.x + s1 * cirX); //x
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a.push(pos.y + cirY); //y
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b.push(pos.x + s2 * cirX); //x for shadow edge
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b.push(pos.y - cirY); //y going up for shadow edge
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}
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return a.concat(b);
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}
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function tToRad(date) {
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date = (date !== undefined) ? new Date(date.getTime()) : new Date();
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let milli = date - new Date(date.setHours(0, 0, 0, 0));
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return (milli / DAY_MILLIS + 0.25) * TAU;
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date = (date !== undefined) ? new Date(date.getTime()) : new Date();
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let milli = date - new Date(date.setHours(0, 0, 0, 0));
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return (milli / DAY_MILLIS + 0.25) * TAU;
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}
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function draw() {
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// work out how to display the current time
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var d = new Date(),
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a = tToRad(d);
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var shape = moonShade(M_POS, SunCalc.getMoonIllumination(d));
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var sTimes = SunCalc.getTimes(d, location.lat, location.lon);
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var daylight = [sTimes.sunrise, sTimes.sunset];
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//clear time area
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g.setColor(0).fillRect(0, 176 - 45, 176, 176);
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drawMoon(shape);
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drawDayRing(daylight);
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drawHHMM(d);
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// draw pointer
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// TODO: Maybe later make this an overlay that can be removed?? -avoid drawing so much every minute/second
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g.setColor(COL.needle).drawImage(needle, MX + RADII.needle * Math.cos(a), MY + RADII.needle * Math.sin(a), { rotate: a });
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function draw(date) {
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var d = date !== undefined ? date : new Date();
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var a = tToRad(d),
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||||
shape = moonShade(M_POS, SunCalc.getMoonIllumination(d)),
|
||||
sTimes = SunCalc.getTimes(d, location.lat, location.lon),
|
||||
daylight = [sTimes.sunrise, sTimes.sunset];
|
||||
//clear time area
|
||||
g.clearRect(Bangle.appRect); //g.setColor(0).fillRect(0, 176 - 45, 176, 176);
|
||||
drawMoon(shape);
|
||||
drawDayRing(daylight);
|
||||
drawHHMM(d);
|
||||
// draw pointer
|
||||
// TODO: Maybe later make this an overlay that can be removed?? -avoid drawing so much every minute/second
|
||||
g.setColor(COL.needle).drawImage(needle, MX + RADII.needle * Math.cos(a), MY + RADII.needle * Math.sin(a), {
|
||||
rotate: a
|
||||
});
|
||||
|
||||
}
|
||||
/*
|
||||
const shotTimes = [1720626960000, 1729184400000, 1738298880000, 1717575420000];
|
||||
let desc =`first quarter -2 days moon at 10:20 in the summer
|
||||
jun 10 2024 10:56
|
||||
full moon at 12 noon near fall equinox
|
||||
Sep 17 2024 12:00
|
||||
new moon at 11pm in winter
|
||||
dec 30 2024 23:48
|
||||
3rd quarter moon at 03:17 am
|
||||
May 5 2024 03:17`
|
||||
|
||||
function screenshots(times) {
|
||||
let d = new Date();
|
||||
for (let t of times) {
|
||||
d.setTime(t);
|
||||
draw(d);
|
||||
g.dump();
|
||||
}
|
||||
}
|
||||
*/
|
||||
// Clear the screen once, at startup
|
||||
g.reset();
|
||||
// requires the myLocation app
|
||||
|
|
@ -197,12 +235,12 @@ draw();
|
|||
var secondInterval = setInterval(draw, 10000); //was 1000
|
||||
// Stop updates when LCD is off, restart when on
|
||||
Bangle.on('lcdPower', on => {
|
||||
if (secondInterval) clearInterval(secondInterval);
|
||||
secondInterval = undefined;
|
||||
if (on) {
|
||||
secondInterval = setInterval(draw, 10000); //was 1000
|
||||
draw(); // draw immediately
|
||||
}
|
||||
if (secondInterval) clearInterval(secondInterval);
|
||||
secondInterval = undefined;
|
||||
if (on) {
|
||||
secondInterval = setInterval(draw, 10000); //was 1000
|
||||
draw(); // draw immediately
|
||||
}
|
||||
});
|
||||
/* Show launcher when middle button pressed
|
||||
This should be done *before* Bangle.loadWidgets so that
|
||||
|
|
@ -210,5 +248,13 @@ widgets know if they're being loaded into a clock app or not */
|
|||
Bangle.setUI("clock");
|
||||
// Load widgets
|
||||
Bangle.loadWidgets();
|
||||
g.setTheme({fg:"#fff", bg:"#000", fg2:"#fff", bg2:"#004", fgH:"#fff", bgH:"#00f", dark:true });
|
||||
g.setTheme({
|
||||
fg: "#fff",
|
||||
bg: "#000",
|
||||
fg2: "#fff",
|
||||
bg2: "#004",
|
||||
fgH: "#fff",
|
||||
bgH: "#00f",
|
||||
dark: true
|
||||
});
|
||||
Bangle.drawWidgets();
|
||||
|
|
@ -1,10 +1,10 @@
|
|||
{ "id": "daymoon",
|
||||
"name": "DayMoon Circadian Clock",
|
||||
"version": "0.04",
|
||||
"version": "0.05",
|
||||
"dependencies": {"mylocation":"app"},
|
||||
"description": "A 24 hour clockface showing the Moon Phase and portion of the day that the Sun is up inspired by Matthew Clark's *Fair Circadian* Pebble watchface",
|
||||
"icon": "daymoon.png",
|
||||
"screenshots": [{"url":"screenshot.png"}],
|
||||
"screenshots": [{"url":"s1.png"},{"url":"s2.png"},{"url":"s3.png"},{"url":"s4.png"}],
|
||||
"type": "clock",
|
||||
"tags": "clock,moon,lunar",
|
||||
"supports": ["BANGLEJS2"],
|
||||
|
|
|
|||
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Loading…
Reference in New Issue