Files
Pete/internal/web/static/js/weather.js
prosolis 1a43616248 Add local weather forecast with live-weather backgrounds
Visitors can save a postal code (international, via Zippopotam) to get the
local forecast from Open-Meteo — a header chip + a 5-day home-page card —
and the canvas background switches from the seasonal effect to live
conditions. Entirely client-side: no keys, no server logic. Geocode cached
permanently, forecast cached 2h. Celsius by default, Fahrenheit opt-in.

New canvas effects: clear (sun by day, shaded moon + stars at night),
clouds (blurred drifting sprites), snow, fog, and storm (rain + lightning).
Seasonal effects remain the no-location fallback.
2026-06-21 00:24:39 -07:00

544 lines
19 KiB
JavaScript

// Canvas-based weather rendered behind the page. Two drivers feed it:
//
// 1. The server picks a *seasonal* variant + intensity from the Lisbon-local
// date and writes them to <html data-weather / data-intensity>. This is the
// default when the visitor hasn't set a location.
// 2. weather-forecast.js, when a postal code is saved, fetches the real
// forecast and calls PeteWeather.set(variant, intensity) to override the
// background with live conditions.
//
// Each variant has a hand-drawn shape so silhouettes are recognizable instead
// of a generic blob. Seasonal variants: rain, petals, jacaranda, motes, leaves.
// Live-weather variants add: clear, clouds, snow, fog, storm.
(function () {
var root = document.documentElement;
var canvas = document.getElementById("pete-weather");
if (!canvas) return;
var reducedMotion = window.matchMedia && window.matchMedia("(prefers-reduced-motion: reduce)").matches;
var STORAGE_KEY = "pete-weather-off";
var toggleBtn = document.querySelector("[data-weather-toggle]");
var star = document.querySelector("[data-weather-star]");
function userDisabled() {
try { return localStorage.getItem(STORAGE_KEY) === "1"; } catch (e) { return false; }
}
function setDisabled(v) {
try {
if (v) localStorage.setItem(STORAGE_KEY, "1");
else localStorage.removeItem(STORAGE_KEY);
} catch (e) {}
}
function syncBtn(enabled) {
if (!toggleBtn) return;
toggleBtn.setAttribute("aria-pressed", enabled ? "true" : "false");
toggleBtn.title = enabled ? "Turn off weather animation" : "Turn on weather animation";
if (star) {
star.style.color = "var(--accent)";
star.style.opacity = enabled ? "1" : "0.3";
star.style.filter = enabled ? "none" : "grayscale(1)";
}
}
var ctx = canvas.getContext("2d");
var W = 0, H = 0, DPR = 1;
function resize() {
DPR = Math.min(window.devicePixelRatio || 1, 2);
W = canvas.clientWidth || window.innerWidth;
H = canvas.clientHeight || window.innerHeight;
canvas.width = Math.floor(W * DPR);
canvas.height = Math.floor(H * DPR);
ctx.setTransform(DPR, 0, 0, DPR, 0, 0);
}
resize();
window.addEventListener("resize", resize);
var counts = {
rain: 160, petals: 50, jacaranda: 55, motes: 70, leaves: 38,
snow: 150, clouds: 7, fog: 7, clear: 0, storm: 200
};
var mults = { light: 0.6, medium: 1.0, heavy: 1.4 };
function rand(a, b) { return a + Math.random() * (b - a); }
var variant = null; // current rendered variant
var intensity = "heavy"; // light | medium | heavy
var particles = [];
var flash = 0; // lightning flash decay (storm only)
var nextBolt = 2; // seconds until next lightning bolt (storm only)
function spawn(initial) {
var p = {};
p.x = rand(0, W);
p.y = initial ? rand(0, H) : rand(-40, -10);
p.z = rand(0.7, 1.3); // depth — affects size + speed + alpha
if (variant === "rain" || variant === "storm") {
p.vy = rand(700, 1100) * p.z;
p.vx = -rand(60, 120);
p.len = rand(10, 18) * p.z;
p.alpha = rand(0.25, 0.55);
} else if (variant === "snow") {
p.vy = rand(35, 75) * p.z;
p.swayAmp = rand(12, 34);
p.swayFreq = rand(0.3, 0.8);
p.swayPhase = rand(0, Math.PI * 2);
p.size = rand(2, 4.6) * p.z;
p.alpha = rand(0.65, 0.95);
} else if (variant === "clouds") {
// Soft puffs drifting across the upper sky.
p.y = initial ? rand(0, H * 0.5) : rand(-H * 0.1, H * 0.45);
p.x = initial ? rand(0, W) : -rand(120, 320);
p.vx = rand(8, 22);
p.size = rand(80, 170) * p.z;
p.alpha = rand(0.32, 0.55);
p.sprite = Math.floor(rand(0, 3));
} else if (variant === "fog") {
// Wide translucent bands creeping sideways.
p.y = rand(H * 0.1, H);
p.x = initial ? rand(0, W) : -rand(200, 500);
p.vx = rand(6, 16);
p.w = rand(260, 520);
p.h = rand(70, 150);
p.alpha = rand(0.05, 0.14);
} else if (variant === "petals" || variant === "jacaranda") {
p.vy = rand(60, 120);
p.swayAmp = rand(20, 50);
p.swayFreq = rand(0.4, 0.9);
p.swayPhase = rand(0, Math.PI * 2);
p.rot = rand(0, Math.PI * 2);
p.vrot = rand(-1.2, 1.2);
p.size = rand(8, 16) * p.z;
p.alpha = rand(0.75, 1.0);
if (variant === "jacaranda") {
p.hue = rand(265, 285); // blue-violet — jacaranda uses the petal silhouette in purple
p.sat = rand(55, 75);
p.light = rand(70, 82);
} else {
p.hue = rand(335, 355); // pink (almond/cherry)
p.sat = rand(60, 80);
p.light = rand(78, 88);
}
} else if (variant === "motes") {
p.vx = rand(-15, 25);
p.vy = rand(8, 25);
p.size = rand(1.2, 2.8) * p.z;
p.alpha = rand(0.35, 0.7);
p.twinklePhase = rand(0, Math.PI * 2);
p.twinkleFreq = rand(0.5, 1.5);
} else if (variant === "leaves") {
p.vy = rand(70, 130);
p.swayAmp = rand(30, 70);
p.swayFreq = rand(0.3, 0.6);
p.swayPhase = rand(0, Math.PI * 2);
p.rot = rand(0, Math.PI * 2);
p.vrot = rand(-2.0, 2.0);
p.size = rand(10, 18) * p.z;
p.alpha = rand(0.8, 1.0);
p.hue = rand(18, 42); // orange→amber→brown
p.light = rand(38, 55);
}
return p;
}
var night = root.dataset.phase === "night";
function refreshNight() { night = root.dataset.phase === "night"; }
function drawRain(p) {
// Day/dawn/dusk backgrounds are warm and pale, so the rain needs a darker,
// more saturated blue plus a slightly thicker line to stay visible. Night
// keeps a paler tone so streaks read against the dark palette.
if (night) {
ctx.strokeStyle = "rgba(200,215,240," + p.alpha + ")";
ctx.lineWidth = 1;
} else {
ctx.strokeStyle = "rgba(60,95,150," + Math.min(1, p.alpha + 0.25) + ")";
ctx.lineWidth = 1.3;
}
ctx.beginPath();
ctx.moveTo(p.x, p.y);
ctx.lineTo(p.x - p.len * 0.12, p.y + p.len);
ctx.stroke();
}
function drawSnow(p) {
// Soft round flake with a faint glow so it reads on light and dark palettes.
var col = night ? "235,242,255" : "255,255,255";
ctx.fillStyle = "rgba(" + col + "," + p.alpha + ")";
ctx.beginPath();
ctx.arc(p.x, p.y, p.size, 0, Math.PI * 2);
ctx.fill();
if (!night) {
// A thin cool outline keeps white flakes visible against cream backgrounds.
ctx.strokeStyle = "rgba(150,180,220," + (p.alpha * 0.5) + ")";
ctx.lineWidth = 0.6;
ctx.stroke();
}
}
// Pre-baked cloud sprites: clustered blobs softened with a heavy blur so each
// cloud reads as one fluffy mass. Built once per palette (day/night) onto
// offscreen canvases, then just drifted — cheap to animate.
var cloudSprites = null;
var cloudSpritesNight = null;
// Three silhouettes for variety. Each is a list of blobs [cx, cy, r] in a
// 0..1 box (x across, y down) with a flattish base around y≈0.66.
var cloudShapes = [
[[0.50, 0.50, 0.26], [0.34, 0.56, 0.20], [0.66, 0.56, 0.20], [0.42, 0.40, 0.18],
[0.58, 0.38, 0.17], [0.22, 0.60, 0.15], [0.78, 0.60, 0.15], [0.50, 0.62, 0.22]],
[[0.46, 0.52, 0.24], [0.30, 0.58, 0.18], [0.62, 0.50, 0.22], [0.74, 0.58, 0.16],
[0.40, 0.40, 0.16], [0.56, 0.36, 0.15], [0.18, 0.62, 0.13], [0.84, 0.62, 0.12]],
[[0.52, 0.50, 0.28], [0.36, 0.56, 0.19], [0.68, 0.56, 0.18], [0.48, 0.36, 0.16],
[0.26, 0.60, 0.14], [0.74, 0.60, 0.15], [0.60, 0.62, 0.18], [0.40, 0.62, 0.18]]
];
function makeCloudSprite(col, shape) {
var c = document.createElement("canvas");
var w = 320, h = 224;
c.width = w; c.height = h;
var cx = c.getContext("2d");
cx.filter = "blur(18px)"; // the softness that turns blobs into a cloud
cx.fillStyle = "rgba(" + col + ",1)";
for (var i = 0; i < shape.length; i++) {
cx.beginPath();
cx.arc(shape[i][0] * w, shape[i][1] * h, shape[i][2] * w, 0, Math.PI * 2);
cx.fill();
}
return c;
}
function ensureCloudSprites() {
if (cloudSprites && cloudSpritesNight === night) return;
// Day sky is warm cream so clouds need a cool slate-grey; night uses a pale
// tone against the dark palette.
var col = night ? "206,216,236" : "150,164,190";
cloudSprites = cloudShapes.map(function (s) { return makeCloudSprite(col, s); });
cloudSpritesNight = night;
}
function drawCloud(p) {
ensureCloudSprites();
var spr = cloudSprites[p.sprite % cloudSprites.length];
var w = p.size * 2.6;
var h = w * (spr.height / spr.width);
ctx.globalAlpha = p.alpha;
ctx.drawImage(spr, p.x - w / 2, p.y - h / 2, w, h);
ctx.globalAlpha = 1;
}
function drawFog(p) {
var col = night ? "150,160,180" : "230,228,224";
var g = ctx.createLinearGradient(p.x - p.w / 2, 0, p.x + p.w / 2, 0);
g.addColorStop(0, "rgba(" + col + ",0)");
g.addColorStop(0.5, "rgba(" + col + "," + p.alpha + ")");
g.addColorStop(1, "rgba(" + col + ",0)");
ctx.fillStyle = g;
ctx.beginPath();
ctx.ellipse(p.x, p.y, p.w / 2, p.h / 2, 0, 0, Math.PI * 2);
ctx.fill();
}
function drawMoon(cx, cy, mr) {
var TAU = Math.PI * 2;
ctx.save();
// Clip everything to the lunar disc so shading stays inside the sphere.
ctx.beginPath();
ctx.arc(cx, cy, mr, 0, TAU);
ctx.clip();
// Spherical body shading — light source upper-right, terminator lower-left.
var lx = cx + mr * 0.45, ly = cy - mr * 0.45;
var body = ctx.createRadialGradient(lx, ly, mr * 0.1, cx, cy, mr * 1.35);
body.addColorStop(0, "rgba(249,251,255,0.97)");
body.addColorStop(0.55, "rgba(214,222,240,0.92)");
body.addColorStop(1, "rgba(140,151,180,0.85)");
ctx.fillStyle = body;
ctx.fillRect(cx - mr, cy - mr, mr * 2, mr * 2);
// Limb darkening — fade the edge so the disc reads as a ball, not a coin.
var limb = ctx.createRadialGradient(cx, cy, mr * 0.62, cx, cy, mr);
limb.addColorStop(0, "rgba(18,24,46,0)");
limb.addColorStop(1, "rgba(18,24,46,0.4)");
ctx.fillStyle = limb;
ctx.fillRect(cx - mr, cy - mr, mr * 2, mr * 2);
ctx.restore();
// Soft outer halo, drawn unclipped around the disc.
var halo = ctx.createRadialGradient(cx, cy, mr, cx, cy, mr * 2.4);
halo.addColorStop(0, "rgba(220,230,255,0.28)");
halo.addColorStop(1, "rgba(220,230,255,0)");
ctx.fillStyle = halo;
ctx.beginPath();
ctx.arc(cx, cy, mr * 2.4, 0, TAU);
ctx.fill();
}
function drawClearGlow(t) {
// No particles — render a single calm sun (day) or moon (night) glow that
// breathes very slowly, plus a few stars at night.
var breathe = 0.5 + 0.5 * Math.sin(t * 0.25);
var cx = W * 0.82, cy = H * 0.18, r = Math.min(W, H) * 0.5;
if (night) {
// Ambient sky glow around the moon.
var g = ctx.createRadialGradient(cx, cy, 0, cx, cy, r);
g.addColorStop(0, "rgba(220,230,255," + (0.12 + 0.05 * breathe) + ")");
g.addColorStop(1, "rgba(220,230,255,0)");
ctx.fillStyle = g;
ctx.fillRect(0, 0, W, H);
drawMoon(cx, cy, r * 0.16);
} else {
var gd = ctx.createRadialGradient(cx, cy, 0, cx, cy, r);
gd.addColorStop(0, "rgba(255,224,150," + (0.30 + 0.10 * breathe) + ")");
gd.addColorStop(0.5, "rgba(255,214,120," + (0.10 + 0.04 * breathe) + ")");
gd.addColorStop(1, "rgba(255,214,120,0)");
ctx.fillStyle = gd;
ctx.fillRect(0, 0, W, H);
}
}
// Deterministic star field for clear nights (seeded so they don't jitter).
var stars = [];
function buildStars() {
stars = [];
var n = 60;
for (var i = 0; i < n; i++) {
// Cheap LCG-ish spread keyed by index — stable across frames.
var sx = ((i * 73 + 11) % 100) / 100;
var sy = ((i * 37 + 7) % 100) / 100;
stars.push({ x: sx, y: sy * 0.7, r: 0.6 + (i % 3) * 0.5, ph: (i % 7) });
}
}
function drawStars(t) {
for (var i = 0; i < stars.length; i++) {
var s = stars[i];
var tw = 0.4 + 0.6 * (0.5 + 0.5 * Math.sin(t * 0.8 + s.ph));
ctx.fillStyle = "rgba(255,255,255," + (0.5 * tw) + ")";
ctx.beginPath();
ctx.arc(s.x * W, s.y * H, s.r, 0, Math.PI * 2);
ctx.fill();
}
}
function drawPetals(p) {
// Five-petal almond/cherry blossom viewed face-on, with a yellow center.
var s = p.size;
ctx.save();
ctx.translate(p.x, p.y);
ctx.rotate(p.rot);
ctx.fillStyle = "hsla(" + p.hue + "," + p.sat + "%," + p.light + "%," + p.alpha + ")";
for (var i = 0; i < 5; i++) {
var a = (i / 5) * Math.PI * 2 - Math.PI / 2;
var cx = Math.cos(a) * s * 0.32;
var cy = Math.sin(a) * s * 0.32;
ctx.beginPath();
ctx.ellipse(cx, cy, s * 0.38, s * 0.24, a, 0, Math.PI * 2);
ctx.fill();
}
ctx.fillStyle = "hsla(48,90%,68%," + p.alpha + ")";
ctx.beginPath();
ctx.arc(0, 0, s * 0.13, 0, Math.PI * 2);
ctx.fill();
ctx.restore();
}
function drawLeaf(p) {
var s = p.size;
ctx.save();
ctx.translate(p.x, p.y);
ctx.rotate(p.rot);
var g = ctx.createLinearGradient(-s * 0.5, 0, s * 0.5, 0);
g.addColorStop(0, "hsla(" + p.hue + ",70%," + (p.light - 10) + "%," + p.alpha + ")");
g.addColorStop(1, "hsla(" + p.hue + ",75%," + (p.light + 10) + "%," + p.alpha + ")");
ctx.fillStyle = g;
// Almond/lozenge leaf — pointed at both ends.
ctx.beginPath();
ctx.moveTo(-s * 0.55, 0);
ctx.quadraticCurveTo(0, -s * 0.38, s * 0.55, 0);
ctx.quadraticCurveTo(0, s * 0.38, -s * 0.55, 0);
ctx.closePath();
ctx.fill();
// Midrib vein.
ctx.strokeStyle = "hsla(" + p.hue + ",60%," + (p.light - 22) + "%," + (p.alpha * 0.7) + ")";
ctx.lineWidth = 0.8;
ctx.beginPath();
ctx.moveTo(-s * 0.5, 0);
ctx.lineTo(s * 0.5, 0);
ctx.stroke();
// Small stem nub at the base.
ctx.strokeStyle = "hsla(" + p.hue + ",55%," + (p.light - 25) + "%," + (p.alpha * 0.7) + ")";
ctx.lineWidth = 1.0;
ctx.beginPath();
ctx.moveTo(-s * 0.55, 0);
ctx.lineTo(-s * 0.7, -s * 0.04);
ctx.stroke();
ctx.restore();
}
function drawMote(p, t) {
var twinkle = 0.5 + 0.5 * Math.sin(t * p.twinkleFreq + p.twinklePhase);
// Night keeps a pale glowing mote against the dark palette. Day/dawn/dusk
// use a deeper saturated honey so the motes stand out against warm cream
// and peach backgrounds; alpha also gets a bump.
var color, a;
if (night) {
color = "255,240,180";
a = p.alpha * (0.45 + 0.55 * twinkle);
} else {
color = "130,80,180";
a = Math.min(1, (p.alpha + 0.2) * (0.6 + 0.4 * twinkle));
}
// Soft glow halo.
var g = ctx.createRadialGradient(p.x, p.y, 0, p.x, p.y, p.size * 5);
g.addColorStop(0, "rgba(" + color + "," + (a * 0.55) + ")");
g.addColorStop(1, "rgba(" + color + ",0)");
ctx.fillStyle = g;
ctx.beginPath();
ctx.arc(p.x, p.y, p.size * 5, 0, Math.PI * 2);
ctx.fill();
// Bright core.
ctx.fillStyle = "rgba(" + color + "," + a + ")";
ctx.beginPath();
ctx.arc(p.x, p.y, p.size, 0, Math.PI * 2);
ctx.fill();
}
var last = performance.now();
var raf = 0;
function step(now) {
var dt = Math.min(0.05, (now - last) / 1000);
last = now;
var t = now / 1000;
ctx.clearRect(0, 0, W, H);
refreshNight();
if (variant === "clear") {
drawClearGlow(t);
if (night) drawStars(t);
raf = requestAnimationFrame(step);
return;
}
// Storm: drive the lightning flash before drawing rain over it.
if (variant === "storm") {
nextBolt -= dt;
if (nextBolt <= 0) {
flash = 1;
nextBolt = rand(2.5, 7);
}
if (flash > 0) {
ctx.fillStyle = "rgba(235,240,255," + (flash * 0.5) + ")";
ctx.fillRect(0, 0, W, H);
flash = Math.max(0, flash - dt * 4); // ~0.25s decay
}
}
for (var i = 0; i < particles.length; i++) {
var p = particles[i];
if (variant === "rain" || variant === "storm") {
p.x += p.vx * dt;
p.y += p.vy * dt;
if (p.y > H + 20 || p.x < -40) {
particles[i] = spawn(false);
particles[i].x = rand(0, W + 60);
continue;
}
drawRain(p);
} else if (variant === "snow") {
p.y += p.vy * dt;
var sxOff = Math.sin(t * p.swayFreq + p.swayPhase) * p.swayAmp;
if (p.y > H + 10) { particles[i] = spawn(false); continue; }
var ox = p.x; p.x = ox + sxOff;
drawSnow(p);
p.x = ox;
} else if (variant === "clouds") {
p.x += p.vx * dt;
if (p.x - p.size * 1.3 > W + 40) { particles[i] = spawn(false); continue; }
drawCloud(p);
} else if (variant === "fog") {
p.x += p.vx * dt;
if (p.x - p.w / 2 > W + 40) { particles[i] = spawn(false); continue; }
drawFog(p);
} else if (variant === "motes") {
p.x += p.vx * dt;
p.y += p.vy * dt;
if (p.y > H + 10 || p.x < -10 || p.x > W + 10) {
particles[i] = spawn(false);
continue;
}
drawMote(p, t);
} else {
// Drifting variants: petals, jacaranda, leaves.
p.y += p.vy * dt;
p.rot += p.vrot * dt;
var sway = Math.sin(t * p.swayFreq + p.swayPhase) * p.swayAmp;
var origX = p.x;
p.x = origX + sway;
if (p.y > H + 30) {
particles[i] = spawn(false);
continue;
}
if (variant === "jacaranda" || variant === "petals") drawPetals(p);
else drawLeaf(p);
p.x = origX;
}
}
raf = requestAnimationFrame(step);
}
function start() {
if (raf) return;
last = performance.now();
raf = requestAnimationFrame(step);
}
function stop() {
if (raf) cancelAnimationFrame(raf);
raf = 0;
ctx.clearRect(0, 0, W, H);
}
// Build the particle pool for a variant and (re)start rendering if enabled.
function configure(v, inten) {
variant = v || null;
intensity = inten || "heavy";
flash = 0; nextBolt = rand(1.5, 4);
particles = [];
if (variant === "clear") { buildStars(); }
if (!variant) { stop(); return; }
var N = Math.round((counts[variant] || 0) * (mults[intensity] || 1));
for (var i = 0; i < N; i++) particles.push(spawn(true));
if (enabled) start();
}
var enabled = !userDisabled() && !reducedMotion;
// Public hook so weather-forecast.js can swap the seasonal default for live
// conditions. Passing a falsy variant clears the canvas.
window.PeteWeather = {
set: function (v, inten) {
root.dataset.weather = v || "";
if (inten) root.dataset.intensity = inten;
configure(v, inten || intensity);
},
isEnabled: function () { return enabled; }
};
syncBtn(enabled);
configure(root.dataset.weather, root.dataset.intensity);
if (toggleBtn) {
toggleBtn.addEventListener("click", function () {
enabled = !enabled;
setDisabled(!enabled);
syncBtn(enabled);
if (enabled) start(); else stop();
});
}
document.addEventListener("visibilitychange", function () {
if (!enabled) return;
if (document.hidden) stop();
else start();
});
})();