'use strict'; var store = require('../store/index.js'); var Component = require('../internal/Component-9c4b98a2.js'); /** * @param {any} obj * @returns {boolean} */ function is_date(obj) { return Object.prototype.toString.call(obj) === '[object Date]'; } /** * @template T * @param {import('./private.js').TickContext} ctx * @param {T} last_value * @param {T} current_value * @param {T} target_value * @returns {T} */ function tick_spring(ctx, last_value, current_value, target_value) { if (typeof current_value === 'number' || is_date(current_value)) { // @ts-ignore const delta = target_value - current_value; // @ts-ignore const velocity = (current_value - last_value) / (ctx.dt || 1 / 60); // guard div by 0 const spring = ctx.opts.stiffness * delta; const damper = ctx.opts.damping * velocity; const acceleration = (spring - damper) * ctx.inv_mass; const d = (velocity + acceleration) * ctx.dt; if (Math.abs(d) < ctx.opts.precision && Math.abs(delta) < ctx.opts.precision) { return target_value; // settled } else { ctx.settled = false; // signal loop to keep ticking // @ts-ignore return is_date(current_value) ? new Date(current_value.getTime() + d) : current_value + d; } } else if (Array.isArray(current_value)) { // @ts-ignore return current_value.map((_, i) => tick_spring(ctx, last_value[i], current_value[i], target_value[i]) ); } else if (typeof current_value === 'object') { const next_value = {}; for (const k in current_value) { // @ts-ignore next_value[k] = tick_spring(ctx, last_value[k], current_value[k], target_value[k]); } // @ts-ignore return next_value; } else { throw new Error(`Cannot spring ${typeof current_value} values`); } } /** * @template T * @param {T} [value] * @param {import('./private.js').SpringOpts} [opts] * @returns {import('./public.js').Spring} */ function spring(value, opts = {}) { const store$1 = store.writable(value); const { stiffness = 0.15, damping = 0.8, precision = 0.01 } = opts; /** @type {number} */ let last_time; /** @type {import('../internal/private.js').Task} */ let task; /** @type {object} */ let current_token; /** @type {T} */ let last_value = value; /** @type {T} */ let target_value = value; let inv_mass = 1; let inv_mass_recovery_rate = 0; let cancel_task = false; /** * @param {T} new_value * @param {import('./private.js').SpringUpdateOpts} opts * @returns {Promise} */ function set(new_value, opts = {}) { target_value = new_value; const token = (current_token = {}); if (value == null || opts.hard || (spring.stiffness >= 1 && spring.damping >= 1)) { cancel_task = true; // cancel any running animation last_time = Component.now(); last_value = new_value; store$1.set((value = target_value)); return Promise.resolve(); } else if (opts.soft) { const rate = opts.soft === true ? 0.5 : +opts.soft; inv_mass_recovery_rate = 1 / (rate * 60); inv_mass = 0; // infinite mass, unaffected by spring forces } if (!task) { last_time = Component.now(); cancel_task = false; task = Component.loop((now) => { if (cancel_task) { cancel_task = false; task = null; return false; } inv_mass = Math.min(inv_mass + inv_mass_recovery_rate, 1); const ctx = { inv_mass, opts: spring, settled: true, dt: ((now - last_time) * 60) / 1000 }; const next_value = tick_spring(ctx, last_value, value, target_value); last_time = now; last_value = value; store$1.set((value = next_value)); if (ctx.settled) { task = null; } return !ctx.settled; }); } return new Promise((fulfil) => { task.promise.then(() => { if (token === current_token) fulfil(); }); }); } /** @type {import('./public.js').Spring} */ const spring = { set, update: (fn, opts) => set(fn(target_value, value), opts), subscribe: store$1.subscribe, stiffness, damping, precision }; return spring; } /** @returns {(t: any) => any} */ function get_interpolator(a, b) { if (a === b || a !== a) return () => a; const type = typeof a; if (type !== typeof b || Array.isArray(a) !== Array.isArray(b)) { throw new Error('Cannot interpolate values of different type'); } if (Array.isArray(a)) { const arr = b.map((bi, i) => { return get_interpolator(a[i], bi); }); return (t) => arr.map((fn) => fn(t)); } if (type === 'object') { if (!a || !b) throw new Error('Object cannot be null'); if (is_date(a) && is_date(b)) { a = a.getTime(); b = b.getTime(); const delta = b - a; return (t) => new Date(a + t * delta); } const keys = Object.keys(b); const interpolators = {}; keys.forEach((key) => { interpolators[key] = get_interpolator(a[key], b[key]); }); return (t) => { const result = {}; keys.forEach((key) => { result[key] = interpolators[key](t); }); return result; }; } if (type === 'number') { const delta = b - a; return (t) => a + t * delta; } throw new Error(`Cannot interpolate ${type} values`); } /** * @template T * @param {T} [value] * @param {import('./private.js').TweenedOptions} [defaults] * @returns {import('./public.js').Tweened} */ function tweened(value, defaults = {}) { const store$1 = store.writable(value); /** @type {import('../internal/private.js').Task} */ let task; let target_value = value; /** * @param {T} new_value * @param {import('./private.js').TweenedOptions} opts */ function set(new_value, opts) { if (value == null) { store$1.set((value = new_value)); return Promise.resolve(); } target_value = new_value; let previous_task = task; let started = false; let { delay = 0, duration = 400, easing = Component.identity, interpolate = get_interpolator } = Component.assign(Component.assign({}, defaults), opts); if (duration === 0) { if (previous_task) { previous_task.abort(); previous_task = null; } store$1.set((value = target_value)); return Promise.resolve(); } const start = Component.now() + delay; let fn; task = Component.loop((now) => { if (now < start) return true; if (!started) { fn = interpolate(value, new_value); if (typeof duration === 'function') duration = duration(value, new_value); started = true; } if (previous_task) { previous_task.abort(); previous_task = null; } const elapsed = now - start; if (elapsed > /** @type {number} */ (duration)) { store$1.set((value = new_value)); return false; } // @ts-ignore store$1.set((value = fn(easing(elapsed / duration)))); return true; }); return task.promise; } return { set, update: (fn, opts) => set(fn(target_value, value), opts), subscribe: store$1.subscribe }; } exports.spring = spring; exports.tweened = tweened;