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Skript läuft plötzlich nicht mehr
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So, ich habe jetzt mal etwas optimiert. Das MQTT Push Thema ist sehr interessant! Das hatte ich bisher so nicht auf dem Schirm. Das eröffnet auch Möglichkeiten mit manchen Dingen ganz anders umzugehen als bisher (Node-Red MQTT abfragen, in Objekte schreiben und dann mit den Objekten arbeiten so bin ich gerade eher unterwegs. Auch mehr mit Blockly und Node Red). Aber Javascript hat mein Interesse geweckt und da ich schon mal Turbo Pascal und Delphi programmiert habe ich etwas Grundwissen Programmierung. Will mich mit ChatGPT Unterstützung da auf jeden Fall weiter einarbeiten.
Hier mal das optimierte Script, wer nochmal drüberschauen möchte und kann ist gerne eingeladen.
1// =============================================== // BKW_Runtime (no-create version) // - Legt KEINE States an // - Schreibt NUR in bestehende States (IDs konfigurierbar) // - Watchdog/Heartbeat nur per Log (keine Meta-States) // =============================================== // --------------- CONFIG ----------------- const CONFIG = { DEVICES: [ { name: 'bkw1', // Eingangswerte (müssen existieren) POWER: '0_userdata.0.shellies.sonstiges.bkw1.apower', // W (aktuelle Leistung) TOTAL: '0_userdata.0.shellies.sonstiges.bkw1.aenergy_total', // Wh (kumulativ) // Basis-Pfad für Ziel-/Interimswerte (müssen existieren!) BASE: '0_userdata.0.pvundstrom.bkws.1', }, { name: 'bkw2', POWER: '0_userdata.0.shellies.sonstiges.bkw2.apower', TOTAL: '0_userdata.0.shellies.sonstiges.bkw2.aenergy_total', BASE: '0_userdata.0.pvundstrom.bkws.2', } ], // Aggregat-Zielpfad (muss existieren!) AGG_BASE: '0_userdata.0.pvundstrom.bkws.all', // Watchdog: Re-Init wenn x Minuten keine Events WATCHDOG_IDLE_MIN: 1, }; // ------------- END CONFIG --------------- // ---- State-Builder pro Device (nur IDs, keine Anlage) ---- function S(dev){ const b = dev.BASE; return { // Eingänge: self_w: `${b}.wr_selfconsumption_w`, // Outputs: power_w: `${b}.power_w`, power_net_w: `${b}.power_net_w`, producing: `${b}.producing`, dt_wh: `${b}.energy_today_net_wh`, mt_wh: `${b}.energy_month_net_wh`, yt_wh: `${b}.energy_year_net_wh`, dt_kwh: `${b}.energy_today_net_kwh`, mt_kwh: `${b}.energy_month_net_kwh`, yt_kwh: `${b}.energy_year_net_kwh`, lf_wh: `${b}.energy_lifetime_net_wh`, lf_kwh: `${b}.energy_lifetime_net_kwh`, // interne Marker (müssen existieren!): int_last_total:`${b}.int_total_wh_last`, // letzter TOTAL (Wh) int_net_eff: `${b}.int_neteffective_wh`, // effektiv eingespeiste Wh (nur wenn ap>self) int_bd: `${b}.int_baseline_day_net_wh`, int_bm: `${b}.int_baseline_month_net_wh`, int_by: `${b}.int_baseline_year_net_wh`, }; } // ---- Helpers ---- const n = (v, fb=0) => Number.isFinite(Number(v)) ? Number(v) : fb; const toKWh = (wh) => Math.round((wh/1000)*1000)/1000; function val(id){ const s = getState(id); return s ? Number(s.val)||0 : 0; } // ---- Logging / Watchdog (OHNE States) ---- let ERRCOUNT = 0; let lastEvent = Date.now(); const WD_MAX_IDLE_MS = CONFIG.WATCHDOG_IDLE_MIN * 60 * 1000; function iso(ts=Date.now()){ return new Date(ts).toISOString(); } async function safe(label, fn){ try { return await fn(); } catch(e){ ERRCOUNT++; log(`[BKW] ${label} FAILED: ${e && e.message ? e.message : e}`, 'warn'); } } async function touchEvent(){ lastEvent = Date.now(); } schedule('*/1 * * * *', () => log(`[BKW] heartbeat ${iso()}`, 'debug')); schedule('*/2 * * * *', async () => { const idle = Date.now() - lastEvent; if (idle > WD_MAX_IDLE_MS) { log(`[BKW] Watchdog: idle ${Math.round(idle/1000)}s → re-init listeners`, 'warn'); for (const d of CONFIG.DEVICES) await safe(`reinit.${d.name}`, async () => initDevice(d)); await safe('updateAggregates.watchdog', updateAggregates); lastEvent = Date.now(); } }); // ---- Kernlogik ---- async function updateProducingFlags(dev, apNow){ const s = S(dev); const ap = apNow != null ? apNow : n((await getStateAsync(dev.POWER))?.val, 0); const selfW = n((await getStateAsync(s.self_w))?.val, 0); const producing = ap > selfW; await setStateAsync(s.power_w, ap, true); await setStateAsync(s.power_net_w, Math.max(0, ap - selfW), true); await setStateAsync(s.producing, producing, true); } async function writeNet(dev){ const s = S(dev); const netEff = n((await getStateAsync(s.int_net_eff))?.val, 0); const bd = n((await getStateAsync(s.int_bd))?.val, 0); const bm = n((await getStateAsync(s.int_bm))?.val, 0); const by = n((await getStateAsync(s.int_by))?.val, 0); const d = Math.max(0, netEff - bd); const m = Math.max(0, netEff - bm); const y = Math.max(0, netEff - by); await setStateAsync(s.dt_wh, d, true); await setStateAsync(s.mt_wh, m, true); await setStateAsync(s.yt_wh, y, true); await setStateAsync(s.dt_kwh, toKWh(d), true); await setStateAsync(s.mt_kwh, toKWh(m), true); await setStateAsync(s.yt_kwh, toKWh(y), true); await setStateAsync(s.lf_wh, netEff, true); await setStateAsync(s.lf_kwh, toKWh(netEff), true); } async function initDevice(dev){ const s = S(dev); // Initiale Flags await safe(`init.updateProducingFlags.${dev.name}`, async () => updateProducingFlags(dev)); // Merker laden const totalNow = n((await getStateAsync(dev.TOTAL))?.val, 0); const lastInit = n((await getStateAsync(s.int_last_total))?.val, NaN); if (!Number.isFinite(lastInit)) { // NICHT anlegen – vorausgesetzt, der State existiert await setStateAsync(s.int_last_total, totalNow, true); } const netEffInit = n((await getStateAsync(s.int_net_eff))?.val, NaN); if (!Number.isFinite(netEffInit)) { await setStateAsync(s.int_net_eff, 0, true); } const netEff = n((await getStateAsync(s.int_net_eff))?.val, 0); if (!Number.isFinite(n((await getStateAsync(s.int_bd))?.val, NaN))) await setStateAsync(s.int_bd, netEff, true); if (!Number.isFinite(n((await getStateAsync(s.int_bm))?.val, NaN))) await setStateAsync(s.int_bm, netEff, true); if (!Number.isFinite(n((await getStateAsync(s.int_by))?.val, NaN))) await setStateAsync(s.int_by, netEff, true); await safe(`init.writeNet.${dev.name}`, async () => writeNet(dev)); // Listener neu registrieren (auch bei Re-Init) on({ id: dev.POWER, change: 'ne' }, async obj => { await touchEvent(); await safe(`POWER:${dev.name}`, async () => { await updateProducingFlags(dev, n(obj.state.val, 0)); }); }); on({ id: dev.TOTAL, change: 'ne' }, async obj => { await touchEvent(); await safe(`TOTAL:${dev.name}`, async () => { const total = n(obj.state.val, 0); const last = n((await getStateAsync(s.int_last_total))?.val, 0); // Robust gegen Reset: wenn TOTAL kleiner als last → Basis neu setzen, KEIN Delta if (total < last) { await setStateAsync(s.int_last_total, total, true); } else { const delta = total - last; await setStateAsync(s.int_last_total, total, true); const ap = n((await getStateAsync(dev.POWER))?.val, 0); const selfW = n((await getStateAsync(s.self_w))?.val, 0); if (ap > selfW && delta > 0) { const netEffNew = n((await getStateAsync(s.int_net_eff))?.val, 0) + delta; await setStateAsync(s.int_net_eff, netEffNew, true); await writeNet(dev); } await updateProducingFlags(dev, ap); await updateAggregates(); } }); }); on({ id: s.self_w, change: 'ne' }, async () => { await touchEvent(); await safe(`SELF_W:${dev.name}`, async () => updateProducingFlags(dev)); }); } // Baselines (Mitternacht/Monat/Jahr) – schreiben nur in bestehende States async function baselineDay(dev){ const s=S(dev); const v=n((await getStateAsync(s.int_net_eff))?.val,0); await setStateAsync(s.int_bd, v, true); await writeNet(dev); } async function baselineMonth(dev){ const s=S(dev); const v=n((await getStateAsync(s.int_net_eff))?.val,0); await setStateAsync(s.int_bm, v, true); await writeNet(dev); } async function baselineYear(dev){ const s=S(dev); const v=n((await getStateAsync(s.int_net_eff))?.val,0); await setStateAsync(s.int_by, v, true); await writeNet(dev); } // Aggregat async function updateAggregates(){ const AGG = CONFIG.AGG_BASE; let pRaw=0, pNet=0, d=0, m=0, y=0, lf=0; for (const dev of CONFIG.DEVICES) { const s = S(dev); pRaw += val(s.power_w); pNet += val(s.power_net_w); d += val(s.dt_wh); m += val(s.mt_wh); y += val(s.yt_wh); lf += val(s.lf_wh); } await setStateAsync(`${AGG}.power_w`, pRaw, true); await setStateAsync(`${AGG}.power_net_w`, pNet, true); await setStateAsync(`${AGG}.producing`, pNet > 0, true); await setStateAsync(`${AGG}.energy_today_net_wh`, d, true); await setStateAsync(`${AGG}.energy_month_net_wh`, m, true); await setStateAsync(`${AGG}.energy_year_net_wh`, y, true); await setStateAsync(`${AGG}.energy_today_net_kwh`, toKWh(d), true); await setStateAsync(`${AGG}.energy_month_net_kwh`, toKWh(m), true); await setStateAsync(`${AGG}.energy_year_net_kwh`, toKWh(y), true); await setStateAsync(`${AGG}.energy_lifetime_net_wh`, lf, true); await setStateAsync(`${AGG}.energy_lifetime_net_kwh`, toKWh(lf), true); } // ===== Start + Zeitpläne ===== (async () => { // Init Geräte & Listener for (const d of CONFIG.DEVICES) await safe(`initDevice.${d.name}`, async () => initDevice(d)); // Baselines schedule('0 0 * * *', async () => { for (const d of CONFIG.DEVICES) await safe(`baselineDay.${d.name}`, async () => baselineDay(d)); }); schedule('0 0 1 * *', async () => { for (const d of CONFIG.DEVICES) await safe(`baselineMonth.${d.name}`, async () => baselineMonth(d)); }); schedule('0 0 1 1 *', async () => { for (const d of CONFIG.DEVICES) await safe(`baselineYear.${d.name}`, async () => baselineYear(d)); }); // Aggregat zyklisch zusätzlich schedule('*/1 * * * *', async () => safe('updateAggregates.cron', updateAggregates)); log('[BKW] Script started (no-create mode).', 'info'); })();@hotspot_2 Was ist da optimiert ? Ich sehe keine Unterschiede zum oben geposteten skript.
Hast du das alte Skript gepostet, oder war die Optimierung eher extern vom Skript ?
ioBroker auf RPi4 - Hardware soweit wie möglich via Zigbee.
"Shit don't work" ist keine Fehlermeldung, sondern ein Fluch. -
@hotspot_2 Was ist da optimiert ? Ich sehe keine Unterschiede zum oben geposteten skript.
Hast du das alte Skript gepostet, oder war die Optimierung eher extern vom Skript ?
@asgothian Ok. Ich habe jetzt nochmal von vorne gestartet und reagiere jetzt auf MQTT Push bei Änderungen von den Leistungswerten und schreibe nur das mal in Objekte. Leistung BKW1, Leistung BKW2 und Gesamtleistung.
Jetzt schau ich mir mal an wie stabil das läuft und dann gehe ich weiter um die Tages-, Monats- und Jahresleistung zu berechnen.
// =============================================== // BKW Live Power (MQTT JSON parse, no-create, sync) // - Liest MQTT-JSON aus status.switch:0 (Shelly Plus Plug S) // - Netto-Leistung je BKW = max(0, apower - wr_selfconsumption_w) // - Gesamtleistung = Summe der Netto-Leistungen // - Legt KEINE States an (schreibt nur in vorhandene Objekte) // - Nutzt getState/setState (ressourcenschonend) // - Schreibt nur bei echter Änderung (mit Toleranz) + bündelt Aggregat // =============================================== // ---------- KONSTANTEN: HIER ANPASSEN ---------- const MQTT_JSON_BKW1 = 'mqtt.0.shellies.sonstiges.bkw1.status.switch:0'; const MQTT_JSON_BKW2 = 'mqtt.0.shellies.sonstiges.bkw2.status.switch:0'; // Eigenverbrauch (W) je BKW (Objekte existieren bereits; sonst wird nur gewarnt) const SELF_BKW1 = '0_userdata.0.pvundstrom.bkws.1.wr_selfconsumption_w'; const SELF_BKW2 = '0_userdata.0.pvundstrom.bkws.2.wr_selfconsumption_w'; // Ziel-States (müssen existieren; number, role=value.power, unit=W) const OUT_PWR_BKW1 = '0_userdata.0.pvundstrom.bkws.1.power_w'; const OUT_PWR_BKW2 = '0_userdata.0.pvundstrom.bkws.2.power_w'; const OUT_PWR_ALL = '0_userdata.0.pvundstrom.bkws.all.power_w'; // Toleranz & Aggregat-Entprellung const EPS_W = 1; // nur schreiben, wenn Änderung > 1 W const AGG_DEBOUNCE_MS = 300; // bündelt schnelle Mehrfachänderungen // ---------- interner Aufbau ---------- const DEVICES = [ { name: 'bkw1', inJsonId: MQTT_JSON_BKW1, selfId: SELF_BKW1, outId: OUT_PWR_BKW1 }, { name: 'bkw2', inJsonId: MQTT_JSON_BKW2, selfId: SELF_BKW2, outId: OUT_PWR_BKW2 }, ]; // ---------- Helpers ---------- const n = (v, fb=0) => Number.isFinite(Number(v)) ? Number(v) : fb; const _existCache = new Map(); function objExists(id) { if (_existCache.has(id)) return _existCache.get(id); const ok = !!getObject(id); _existCache.set(id, ok); if (!ok) log(`[BKW] Objekt existiert nicht: ${id}`, 'warn'); return ok; } // schreibt nur, wenn Ziel existiert UND sich der Wert (mit EPS) geändert hat function setChangedNoCreate(id, nextVal, eps = 0, ack = true) { if (!objExists(id)) return; // KEINE Anlage const cur = getState(id); const curVal = cur ? cur.val : undefined; let same = false; if (typeof nextVal === 'number') { same = Number.isFinite(Number(curVal)) && Math.abs(Number(curVal) - Number(nextVal)) <= eps; } else { same = curVal === nextVal; } if (same) return; setState(id, nextVal, ack); } // robustes JSON-Parsing für status.switch:0 → apower (W) function parseApowerFromState(stateObj) { if (!stateObj || typeof stateObj.val !== 'string') return 0; try { const json = JSON.parse(stateObj.val); const ap = Number(json?.apower); return Number.isFinite(ap) ? ap : 0; } catch (e) { const sample = typeof stateObj.val === 'string' ? stateObj.val.slice(0, 120) : '<non-string>'; log(`[BKW] JSON parse failed (${sample}): ${e.message}`, 'warn'); return 0; } } // Netto-Leistung: max(0, apower - self) function computeNetPower(dev) { const sJson = getState(dev.inJsonId); const sSelf = getState(dev.selfId); const ap = parseApowerFromState(sJson); const self = n(sSelf?.val, 0); const net = Math.max(0, ap - self); return { ap, self, net }; } // ---------- Aggregat ---------- let aggTimer = null; function scheduleAgg() { if (aggTimer) return; aggTimer = setTimeout(() => { aggTimer = null; try { let sum = 0; for (const d of DEVICES) { if (!objExists(d.outId)) continue; const s = getState(d.outId); sum += s ? n(s.val, 0) : 0; } setChangedNoCreate(OUT_PWR_ALL, sum, EPS_W, true); } catch (e) { log(`[BKW] update aggregate failed: ${e && e.message ? e.message : e}`, 'warn'); } }, AGG_DEBOUNCE_MS); } // ---------- Start ---------- (() => { try { // Existenz der benutzten IDs einmalig prüfen (ohne Anlegen) for (const d of DEVICES) { objExists(d.inJsonId); objExists(d.selfId); objExists(d.outId); } objExists(OUT_PWR_ALL); // Initiale Übernahme (rein aus ioBroker-States, kein Gerät-Poll) for (const d of DEVICES) { if (!objExists(d.inJsonId) || !objExists(d.outId)) continue; if (!objExists(d.selfId)) log(`[BKW] Hinweis: Eigenverbrauchs-Objekt fehlt für ${d.name} → wird als 0 W behandelt`, 'warn'); const { net } = computeNetPower(d); setChangedNoCreate(d.outId, net, EPS_W, true); } scheduleAgg(); // Event-Listener: auf Änderungen am JSON ODER am Eigenverbrauch reagieren for (const d of DEVICES) { // MQTT JSON (status.switch:0) if (objExists(d.inJsonId)) { on({ id: d.inJsonId, change: 'ne' }, (obj) => { try { const ap = parseApowerFromState(obj.state); const selfS = getState(d.selfId); const self = n(selfS?.val, 0); const net = Math.max(0, ap - self); setChangedNoCreate(d.outId, net, EPS_W, true); scheduleAgg(); } catch (e) { log(`[BKW] onJSON ${d.name} failed: ${e && e.message ? e.message : e}`, 'warn'); } }); } // Eigenverbrauch if (objExists(d.selfId)) { on({ id: d.selfId, change: 'ne' }, () => { try { const { net } = computeNetPower(d); setChangedNoCreate(d.outId, net, EPS_W, true); scheduleAgg(); } catch (e) { log(`[BKW] onSelf ${d.name} failed: ${e && e.message ? e.message : e}`, 'warn'); } }); } } log('[BKW] Live-Power Script gestartet (MQTT JSON, no-create, sync).', 'info'); } catch (e) { log(`[BKW] init failed: ${e && e.message ? e.message : e}`, 'error'); } })(); -
@asgothian Ok. Ich habe jetzt nochmal von vorne gestartet und reagiere jetzt auf MQTT Push bei Änderungen von den Leistungswerten und schreibe nur das mal in Objekte. Leistung BKW1, Leistung BKW2 und Gesamtleistung.
Jetzt schau ich mir mal an wie stabil das läuft und dann gehe ich weiter um die Tages-, Monats- und Jahresleistung zu berechnen.
// =============================================== // BKW Live Power (MQTT JSON parse, no-create, sync) // - Liest MQTT-JSON aus status.switch:0 (Shelly Plus Plug S) // - Netto-Leistung je BKW = max(0, apower - wr_selfconsumption_w) // - Gesamtleistung = Summe der Netto-Leistungen // - Legt KEINE States an (schreibt nur in vorhandene Objekte) // - Nutzt getState/setState (ressourcenschonend) // - Schreibt nur bei echter Änderung (mit Toleranz) + bündelt Aggregat // =============================================== // ---------- KONSTANTEN: HIER ANPASSEN ---------- const MQTT_JSON_BKW1 = 'mqtt.0.shellies.sonstiges.bkw1.status.switch:0'; const MQTT_JSON_BKW2 = 'mqtt.0.shellies.sonstiges.bkw2.status.switch:0'; // Eigenverbrauch (W) je BKW (Objekte existieren bereits; sonst wird nur gewarnt) const SELF_BKW1 = '0_userdata.0.pvundstrom.bkws.1.wr_selfconsumption_w'; const SELF_BKW2 = '0_userdata.0.pvundstrom.bkws.2.wr_selfconsumption_w'; // Ziel-States (müssen existieren; number, role=value.power, unit=W) const OUT_PWR_BKW1 = '0_userdata.0.pvundstrom.bkws.1.power_w'; const OUT_PWR_BKW2 = '0_userdata.0.pvundstrom.bkws.2.power_w'; const OUT_PWR_ALL = '0_userdata.0.pvundstrom.bkws.all.power_w'; // Toleranz & Aggregat-Entprellung const EPS_W = 1; // nur schreiben, wenn Änderung > 1 W const AGG_DEBOUNCE_MS = 300; // bündelt schnelle Mehrfachänderungen // ---------- interner Aufbau ---------- const DEVICES = [ { name: 'bkw1', inJsonId: MQTT_JSON_BKW1, selfId: SELF_BKW1, outId: OUT_PWR_BKW1 }, { name: 'bkw2', inJsonId: MQTT_JSON_BKW2, selfId: SELF_BKW2, outId: OUT_PWR_BKW2 }, ]; // ---------- Helpers ---------- const n = (v, fb=0) => Number.isFinite(Number(v)) ? Number(v) : fb; const _existCache = new Map(); function objExists(id) { if (_existCache.has(id)) return _existCache.get(id); const ok = !!getObject(id); _existCache.set(id, ok); if (!ok) log(`[BKW] Objekt existiert nicht: ${id}`, 'warn'); return ok; } // schreibt nur, wenn Ziel existiert UND sich der Wert (mit EPS) geändert hat function setChangedNoCreate(id, nextVal, eps = 0, ack = true) { if (!objExists(id)) return; // KEINE Anlage const cur = getState(id); const curVal = cur ? cur.val : undefined; let same = false; if (typeof nextVal === 'number') { same = Number.isFinite(Number(curVal)) && Math.abs(Number(curVal) - Number(nextVal)) <= eps; } else { same = curVal === nextVal; } if (same) return; setState(id, nextVal, ack); } // robustes JSON-Parsing für status.switch:0 → apower (W) function parseApowerFromState(stateObj) { if (!stateObj || typeof stateObj.val !== 'string') return 0; try { const json = JSON.parse(stateObj.val); const ap = Number(json?.apower); return Number.isFinite(ap) ? ap : 0; } catch (e) { const sample = typeof stateObj.val === 'string' ? stateObj.val.slice(0, 120) : '<non-string>'; log(`[BKW] JSON parse failed (${sample}): ${e.message}`, 'warn'); return 0; } } // Netto-Leistung: max(0, apower - self) function computeNetPower(dev) { const sJson = getState(dev.inJsonId); const sSelf = getState(dev.selfId); const ap = parseApowerFromState(sJson); const self = n(sSelf?.val, 0); const net = Math.max(0, ap - self); return { ap, self, net }; } // ---------- Aggregat ---------- let aggTimer = null; function scheduleAgg() { if (aggTimer) return; aggTimer = setTimeout(() => { aggTimer = null; try { let sum = 0; for (const d of DEVICES) { if (!objExists(d.outId)) continue; const s = getState(d.outId); sum += s ? n(s.val, 0) : 0; } setChangedNoCreate(OUT_PWR_ALL, sum, EPS_W, true); } catch (e) { log(`[BKW] update aggregate failed: ${e && e.message ? e.message : e}`, 'warn'); } }, AGG_DEBOUNCE_MS); } // ---------- Start ---------- (() => { try { // Existenz der benutzten IDs einmalig prüfen (ohne Anlegen) for (const d of DEVICES) { objExists(d.inJsonId); objExists(d.selfId); objExists(d.outId); } objExists(OUT_PWR_ALL); // Initiale Übernahme (rein aus ioBroker-States, kein Gerät-Poll) for (const d of DEVICES) { if (!objExists(d.inJsonId) || !objExists(d.outId)) continue; if (!objExists(d.selfId)) log(`[BKW] Hinweis: Eigenverbrauchs-Objekt fehlt für ${d.name} → wird als 0 W behandelt`, 'warn'); const { net } = computeNetPower(d); setChangedNoCreate(d.outId, net, EPS_W, true); } scheduleAgg(); // Event-Listener: auf Änderungen am JSON ODER am Eigenverbrauch reagieren for (const d of DEVICES) { // MQTT JSON (status.switch:0) if (objExists(d.inJsonId)) { on({ id: d.inJsonId, change: 'ne' }, (obj) => { try { const ap = parseApowerFromState(obj.state); const selfS = getState(d.selfId); const self = n(selfS?.val, 0); const net = Math.max(0, ap - self); setChangedNoCreate(d.outId, net, EPS_W, true); scheduleAgg(); } catch (e) { log(`[BKW] onJSON ${d.name} failed: ${e && e.message ? e.message : e}`, 'warn'); } }); } // Eigenverbrauch if (objExists(d.selfId)) { on({ id: d.selfId, change: 'ne' }, () => { try { const { net } = computeNetPower(d); setChangedNoCreate(d.outId, net, EPS_W, true); scheduleAgg(); } catch (e) { log(`[BKW] onSelf ${d.name} failed: ${e && e.message ? e.message : e}`, 'warn'); } }); } } log('[BKW] Live-Power Script gestartet (MQTT JSON, no-create, sync).', 'info'); } catch (e) { log(`[BKW] init failed: ${e && e.message ? e.message : e}`, 'error'); } })();@hotspot_2 sagte in Skript läuft plötzlich nicht mehr:
(() => {
oder
function S(dev){
jetzt dich mit javascript auseinander und übernimm nicht blind irgendwelche Klamotten..
ich hab zwat kein Plan was du in Delphi geschrieben hast aber es scheint nicht viel gewesen zu sein.. oder hast du etwa so units definiert
uses n, b, u;versteh es nicht falsch das was du machst funktioniert und ist nutzbar aber nicht wartbar wenn ich das lese..
zigbee hab ich, zwave auch, nuc's genauso und HA auch
-
@hotspot_2 sagte in Skript läuft plötzlich nicht mehr:
(() => {
oder
function S(dev){
jetzt dich mit javascript auseinander und übernimm nicht blind irgendwelche Klamotten..
ich hab zwat kein Plan was du in Delphi geschrieben hast aber es scheint nicht viel gewesen zu sein.. oder hast du etwa so units definiert
uses n, b, u;versteh es nicht falsch das was du machst funktioniert und ist nutzbar aber nicht wartbar wenn ich das lese..
@arteck Ich verstehe Dich nicht falsch. Ich kann das komplett nachvollziehen was Du sagst.
Ich "programmiere" gerade auf eine Art und Weise die zwar zum Ergebnis führt in einigen Fällen aber Wartbarkeit, Lesbarer Code und viele andere Aspekte die zum Programmieren gehören werden da nicht berücksichtigt. Es ist halt wirklich sehr zielorientiert, das ist aber nicht das Einzigste und das wird irgendwann zu Problem führen. Für ein paar Codeschnipsel für iobroker kann man das eventuell noch tolerieren aber wenn's größer wird wird das schwierig.
Und nein, so hätte ich Units nicht definiert und das hat mir auch sofort klar gemacht was Du damit sagen möchtest. Danke dafür.
Ich bleibe da am Ball, lese mich weiter ein und nutze den nicht ganz optimalen Code als Vehikel um weiter zu kommen.
Danke für die Analyse das ich den Code zumindest einsetzen kann. Stabiler als vorher läuft er auf jeden Fall mal.
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@arteck Ich verstehe Dich nicht falsch. Ich kann das komplett nachvollziehen was Du sagst.
Ich "programmiere" gerade auf eine Art und Weise die zwar zum Ergebnis führt in einigen Fällen aber Wartbarkeit, Lesbarer Code und viele andere Aspekte die zum Programmieren gehören werden da nicht berücksichtigt. Es ist halt wirklich sehr zielorientiert, das ist aber nicht das Einzigste und das wird irgendwann zu Problem führen. Für ein paar Codeschnipsel für iobroker kann man das eventuell noch tolerieren aber wenn's größer wird wird das schwierig.
Und nein, so hätte ich Units nicht definiert und das hat mir auch sofort klar gemacht was Du damit sagen möchtest. Danke dafür.
Ich bleibe da am Ball, lese mich weiter ein und nutze den nicht ganz optimalen Code als Vehikel um weiter zu kommen.
Danke für die Analyse das ich den Code zumindest einsetzen kann. Stabiler als vorher läuft er auf jeden Fall mal.
@hotspot_2
Du must dem chat bei GPT ein paar Regeln mit geben - vielleicht auch gleich in der Prompt- Nur Funktionen benutzen die existieren
- von Menschen lesbaren Code erzeugen
- in der Kürze liegt die Würze
- englische JSDocs hinzufügen
- deaktivierbare Logausgaben zum debuggen einfügen
- kommentare nur auf englisch
ok ich weiß nicht allles- ich hab meinen so oft "an gemeckert", das da ne menge regeln irgendwo gespeichert sind.
Wenn ich so einen Code bekommen würde wäre mein Kommentar - Was soll den das sein? Buchstabensalat? Bist du unfähig - Nochmal und dieses mal anständig!
Wenn man einen genervten ärgerlichen Eindruck macht, werden die ergebnisse meist besser - :rolling_on_the_floor_laughing:
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@hotspot_2
Du must dem chat bei GPT ein paar Regeln mit geben - vielleicht auch gleich in der Prompt- Nur Funktionen benutzen die existieren
- von Menschen lesbaren Code erzeugen
- in der Kürze liegt die Würze
- englische JSDocs hinzufügen
- deaktivierbare Logausgaben zum debuggen einfügen
- kommentare nur auf englisch
ok ich weiß nicht allles- ich hab meinen so oft "an gemeckert", das da ne menge regeln irgendwo gespeichert sind.
Wenn ich so einen Code bekommen würde wäre mein Kommentar - Was soll den das sein? Buchstabensalat? Bist du unfähig - Nochmal und dieses mal anständig!
Wenn man einen genervten ärgerlichen Eindruck macht, werden die ergebnisse meist besser - :rolling_on_the_floor_laughing:
@ticaki Danke für die Tipps. Das werde ich testen und auch hier mal berichten wie dann der Code aussieht.
Das ChatGPT sehr gut in der Lage ist sich Dinge zu merken hab ich auch schon gemerkt. Ich habe beispielsweise mal erklärt wie ich gerne Objekte in iobroker organisiere im Bereich userdata. Also welche Besamung, wann ich ein Unterordner anlege usw. Das brauche ich nun bei weiteren Javascript Programmierprojekten nicht mehr wiederholen. Das sitzt und alle Objekte werden so wie gewünscht benannt.
Ich werde jetzt mal eine rauere Gangart pflegen und mal schauen wie dann die Ergebnisse aussehen ;-).
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@hotspot_2 sagte in Skript läuft plötzlich nicht mehr:
(() => {
oder
function S(dev){
jetzt dich mit javascript auseinander und übernimm nicht blind irgendwelche Klamotten..
ich hab zwat kein Plan was du in Delphi geschrieben hast aber es scheint nicht viel gewesen zu sein.. oder hast du etwa so units definiert
uses n, b, u;versteh es nicht falsch das was du machst funktioniert und ist nutzbar aber nicht wartbar wenn ich das lese..
@arteck sagte in Skript läuft plötzlich nicht mehr:
@hotspot_2 sagte in Skript läuft plötzlich nicht mehr:
(() => {
Für den Browser ist das eigentlich gar nicht schlecht, für Node ist es unnötig.
Primär macht man das um im Browser das window Objekt nicht unnötig voll zu machen, da alles innerhalb der Funktion in einem eigenen scope läuft. -
@arteck sagte in Skript läuft plötzlich nicht mehr:
@hotspot_2 sagte in Skript läuft plötzlich nicht mehr:
(() => {
Für den Browser ist das eigentlich gar nicht schlecht, für Node ist es unnötig.
Primär macht man das um im Browser das window Objekt nicht unnötig voll zu machen, da alles innerhalb der Funktion in einem eigenen scope läuft.Jetzt habe ich mal einen ernsten Ton genutzt und die Regeln übermittelt bestimmt.
Das Ergebnis sieht für meine Augen schon besser aus.
// ================================================== // BKW Live Power + Daily/Total Energy (no-create, MQTT push) // - Reads Shelly MQTT JSON (status.switch:0 → apower) // - Net power per BKW = max(0, apower - wr_selfconsumption_w) // - Event-based daily energy integration (no polling) // - Daily close at 00:00: writes kWh per BKW + total (Grafana), updates TOTAL_KWH // - No state creation/history; writes only if targets exist // ================================================== // ---------- CONFIG ---------- // Common prefix for all user states const PREFIX = '0_userdata.0.pvundstrom.bkws.'; // MQTT inputs const MQTT_JSON_BKW1 = 'mqtt.0.shellies.sonstiges.bkw1.status.switch:0'; const MQTT_JSON_BKW2 = 'mqtt.0.shellies.sonstiges.bkw2.status.switch:0'; // Self-consumption per BKW (W) const SELF_BKW1 = PREFIX + '1.wr_selfconsumption_w'; const SELF_BKW2 = PREFIX + '2.wr_selfconsumption_w'; // Live power outputs (W) const OUT_PWR_BKW1 = PREFIX + '1.power_w'; const OUT_PWR_BKW2 = PREFIX + '2.power_w'; const OUT_PWR_ALL = PREFIX + 'all.power_w'; // Energy states BKW1 const BKW1_TODAY_Wh = PREFIX + '1.today_wh'; const BKW1_TODAY_kWh = PREFIX + '1.today_kwh'; const BKW1_LASTTS_MS = PREFIX + '1.lastts_ms'; const BKW1_GRAFANA_DAILY = PREFIX + '1.grafana_daily_kwh'; const BKW1_TOTAL_KWH = PREFIX + '1.total_kwh'; // Energy states BKW2 const BKW2_TODAY_Wh = PREFIX + '2.today_wh'; const BKW2_TODAY_kWh = PREFIX + '2.today_kwh'; const BKW2_LASTTS_MS = PREFIX + '2.lastts_ms'; const BKW2_GRAFANA_DAILY = PREFIX + '2.grafana_daily_kwh'; const BKW2_TOTAL_KWH = PREFIX + '2.total_kwh'; // Aggregated energy states const OUT_TOTAL_TODAY_Wh = PREFIX + 'all.today_wh'; const OUT_TOTAL_TODAY_kWh = PREFIX + 'all.today_kwh'; const OUT_TOTAL_GRAFANA = PREFIX + 'all.grafana_daily_kwh'; const OUT_TOTAL_CUM_KWH = PREFIX + 'all.total_kwh'; const EPS_W = 1; const AGG_DEBOUNCE_MS = 300; const MAX_DT_MS = 5000; const FALLBACK_DT_MS = 1000; const ROUND_DISPLAY = 3; const RUN_AT_0005 = false; // Debug switch const DEBUG = false; function dbg(msg) { if (DEBUG) log('[BKW] ' + msg); } // ---------- DEVICE MAP ---------- const DEVICES = [ { name: 'bkw1', inJsonId: MQTT_JSON_BKW1, selfId: SELF_BKW1, outId: OUT_PWR_BKW1, todayWh: BKW1_TODAY_Wh, todayKWh: BKW1_TODAY_kWh, lastTs: BKW1_LASTTS_MS, grafDaily:BKW1_GRAFANA_DAILY, totalKWh: BKW1_TOTAL_KWH, }, { name: 'bkw2', inJsonId: MQTT_JSON_BKW2, selfId: SELF_BKW2, outId: OUT_PWR_BKW2, todayWh: BKW2_TODAY_Wh, todayKWh: BKW2_TODAY_kWh, lastTs: BKW2_LASTTS_MS, grafDaily:BKW2_GRAFANA_DAILY, totalKWh: BKW2_TOTAL_KWH, }, // add more BKWs with same structure if needed ]; // ---------- HELPERS ---------- /** * Convert to finite number with fallback. * @param {any} value * @param {number} fallback * @returns {number} */ function toNumberOr(value, fallback) { const num = Number(value); return Number.isFinite(num) ? num : (Number.isFinite(fallback) ? fallback : 0); } const existsCache = new Map(); /** * Check object existence (cached). Warn once if missing. * @param {string} id * @returns {boolean} */ function objectExists(id) { if (existsCache.has(id)) return existsCache.get(id); const ok = !!getObject(id); existsCache.set(id, ok); if (!ok) log('[BKW] Missing object: ' + id, 'warn'); return ok; } /** * Write only if object exists AND the value changed beyond epsilon. * Allows explicit write of zero even within epsilon. * @param {string} id * @param {any} nextVal * @param {number} eps * @param {boolean} ack */ function writeIfChanged(id, nextVal, eps, ack) { if (!objectExists(id)) return; const cur = getState(id); const curVal = cur ? cur.val : undefined; if (typeof nextVal === 'number') { const curNum = Number(curVal); if (Number.isFinite(curNum)) { const withinEps = Math.abs(curNum - nextVal) <= eps; const zeroOverride = nextVal === 0 && curNum > 0; if (withinEps && !zeroOverride) return; } } else if (curVal === nextVal) { return; } setState(id, nextVal, ack); } /** * Write only if object exists (no change check). * @param {string} id * @param {any} nextVal * @param {boolean} ack */ function writeIfExists(id, nextVal, ack) { if (!objectExists(id)) return; setState(id, nextVal, ack); } // ---------- AGGREGATE POWER ---------- let aggTimer = null; /** Debounced update of aggregate power state. */ function scheduleAggregateUpdate() { if (aggTimer) return; aggTimer = setTimeout(function () { aggTimer = null; try { let sum = 0; for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; if (!objectExists(d.outId)) continue; const s = getState(d.outId); sum += s ? toNumberOr(s.val, 0) : 0; } writeIfChanged(OUT_PWR_ALL, sum, EPS_W, true); } catch (e) { log('[BKW] aggregate update failed: ' + (e && e.message ? e.message : e), 'warn'); } }, AGG_DEBOUNCE_MS); } // ---------- ENERGY INTEGRATION ---------- const lastTsCache = new Map(); /** * Integrate device energy based on elapsed time and net power. * Updates: lastTs, todayWh, todayKWh and aggregated today totals. * @param {{name:string,lastTs:string,todayWh:string,todayKWh:string}} dev * @param {number} netPowerW */ function integrateDeviceEnergy(dev, netPowerW) { const now = Date.now(); let last = lastTsCache.get(dev.name); if (!Number.isFinite(last)) last = toNumberOr(getState(dev.lastTs)?.val, now); let dt = now - last; if (dt < 0 || dt > MAX_DT_MS) { dt = FALLBACK_DT_MS; dbg('[' + dev.name + '] implausible dt → fallback ' + dt + 'ms'); } // If no power, just advance lastTs to keep dt bounded. if (netPowerW <= 0) { writeIfExists(dev.lastTs, now, true); lastTsCache.set(dev.name, now); return; } const WhInc = netPowerW * (dt / 3600000); let todayWh = toNumberOr(getState(dev.todayWh)?.val, 0) + WhInc; if (todayWh < 0) todayWh = 0; const todayKWh = todayWh / 1000; writeIfExists(dev.lastTs, now, true); lastTsCache.set(dev.name, now); writeIfExists(dev.todayWh, todayWh, true); writeIfChanged(dev.todayKWh, Number(todayKWh.toFixed(ROUND_DISPLAY)), 0, true); // Update aggregated "today" let sumWh = 0; for (let i = 0; i < DEVICES.length; i++) { sumWh += toNumberOr(getState(DEVICES[i].todayWh)?.val, 0); } writeIfExists(OUT_TOTAL_TODAY_Wh, sumWh, true); writeIfChanged(OUT_TOTAL_TODAY_kWh, Number((sumWh / 1000).toFixed(ROUND_DISPLAY)), 0, true); } // ---------- INIT ---------- (function init() { try { // Check existence (no creation) for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; objectExists(d.inJsonId); objectExists(d.selfId); objectExists(d.outId); objectExists(d.todayWh); objectExists(d.todayKWh); objectExists(d.lastTs); objectExists(d.grafDaily);objectExists(d.totalKWh); } objectExists(OUT_PWR_ALL); objectExists(OUT_TOTAL_TODAY_Wh); objectExists(OUT_TOTAL_TODAY_kWh); objectExists(OUT_TOTAL_GRAFANA); objectExists(OUT_TOTAL_CUM_KWH); // Initial live power & lastTs cache for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; if (!objectExists(d.inJsonId) || !objectExists(d.outId)) continue; if (!objectExists(d.selfId)) log('[BKW] Note: self-consumption missing for ' + d.name + ' → 0 W', 'warn'); // Inline apower parse + net calculation let ap = 0; const jState = getState(d.inJsonId); if (jState && typeof jState.val === 'string') { try { const j = JSON.parse(jState.val); ap = Number(j && j.apower) || 0; } catch (e) { const sample = typeof jState.val === 'string' ? jState.val.slice(0, 120) : '<non-string>'; log('[BKW] JSON parse failed (' + sample + '): ' + e.message, 'warn'); } } const self = toNumberOr(getState(d.selfId)?.val, 0); const net = Math.max(0, ap - self); writeIfChanged(d.outId, net, EPS_W, true); const lastStored = toNumberOr(getState(d.lastTs)?.val, NaN); lastTsCache.set(d.name, Number.isFinite(lastStored) ? lastStored : Date.now()); } scheduleAggregateUpdate(); // Event listeners for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; // MQTT JSON changed if (objectExists(d.inJsonId)) { on({ id: d.inJsonId, change: 'ne' }, (obj) => { try { // Inline apower parse let ap = 0; if (obj && obj.state && typeof obj.state.val === 'string') { try { const j = JSON.parse(obj.state.val); ap = Number(j && j.apower) || 0; } catch (e) { const sample = typeof obj.state.val === 'string' ? obj.state.val.slice(0, 120) : '<non-string>'; log('[BKW] JSON parse failed (' + sample + '): ' + e.message, 'warn'); } } const self = toNumberOr(getState(d.selfId)?.val, 0); const net = Math.max(0, ap - self); writeIfChanged(d.outId, net, EPS_W, true); scheduleAggregateUpdate(); integrateDeviceEnergy(d, net); } catch (e) { log('[BKW] onJSON ' + d.name + ' failed: ' + (e && e.message ? e.message : e), 'warn'); } }); } // Self-consumption changed if (objectExists(d.selfId)) { on({ id: d.selfId, change: 'ne' }, () => { try { // Inline apower parse + net let ap = 0; const jState = getState(d.inJsonId); if (jState && typeof jState.val === 'string') { try { const j = JSON.parse(jState.val); ap = Number(j && j.apower) || 0; } catch (e) { const sample = typeof jState.val === 'string' ? jState.val.slice(0, 120) : '<non-string>'; log('[BKW] JSON parse failed (' + sample + '): ' + e.message, 'warn'); } } const self = toNumberOr(getState(d.selfId)?.val, 0); const net = Math.max(0, ap - self); writeIfChanged(d.outId, net, EPS_W, true); scheduleAggregateUpdate(); integrateDeviceEnergy(d, net); } catch (e) { log('[BKW] onSelf ' + d.name + ' failed: ' + (e && e.message ? e.message : e), 'warn'); } }); } } log('[BKW] Live power + energy script started (MQTT push, no-create).', 'info'); } catch (e) { log('[BKW] init failed: ' + (e && e.message ? e.message : e), 'error'); } })(); // ---------- DAILY CLOSE ---------- /** * Daily close: write yesterday's kWh (ts = prev day 23:59:59.999), * accumulate totals, reset today's counters. */ function dailyClose() { try { const tsStartToday = new Date().setHours(0, 0, 0, 0); const tsPrevDayEnd = tsStartToday - 1; let totalDayKWh = 0; for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; const dayKWh = toNumberOr(getState(d.todayKWh)?.val, 0); totalDayKWh += dayKWh; writeIfExists(d.grafDaily, { val: Number(dayKWh.toFixed(ROUND_DISPLAY)), ts: tsPrevDayEnd }, true); const cum = toNumberOr(getState(d.totalKWh)?.val, 0) + dayKWh; writeIfExists(d.totalKWh, Number(cum.toFixed(ROUND_DISPLAY)), true); writeIfExists(d.todayWh, 0, true); writeIfExists(d.todayKWh, 0, true); const now = Date.now(); writeIfExists(d.lastTs, now, true); lastTsCache.set(d.name, now); } writeIfExists(OUT_TOTAL_GRAFANA, { val: Number(totalDayKWh.toFixed(ROUND_DISPLAY)), ts: tsPrevDayEnd }, true); const totalCum = toNumberOr(getState(OUT_TOTAL_CUM_KWH)?.val, 0) + totalDayKWh; writeIfExists(OUT_TOTAL_CUM_KWH, Number(totalCum.toFixed(ROUND_DISPLAY)), true); writeIfExists(OUT_TOTAL_TODAY_Wh, 0, true); writeIfExists(OUT_TOTAL_TODAY_kWh, 0, true); log('[BKW] Daily close: total=' + totalDayKWh.toFixed(ROUND_DISPLAY) + ' kWh; cum=' + totalCum.toFixed(ROUND_DISPLAY) + ' kWh'); } catch (e) { log('[BKW] daily close failed: ' + (e && e.message ? e.message : e), 'warn'); } } // Cron 00:00 schedule('0 0 * * *', dailyClose); // Optional 00:05 if (RUN_AT_0005) { schedule('5 0 * * *', function () { try { dailyClose(); log('[BKW] 00:05 refresh executed.'); } catch (e) { log('[BKW] 00:05 error: ' + e, 'warn'); } }); } -
Jetzt habe ich mal einen ernsten Ton genutzt und die Regeln übermittelt bestimmt.
Das Ergebnis sieht für meine Augen schon besser aus.
// ================================================== // BKW Live Power + Daily/Total Energy (no-create, MQTT push) // - Reads Shelly MQTT JSON (status.switch:0 → apower) // - Net power per BKW = max(0, apower - wr_selfconsumption_w) // - Event-based daily energy integration (no polling) // - Daily close at 00:00: writes kWh per BKW + total (Grafana), updates TOTAL_KWH // - No state creation/history; writes only if targets exist // ================================================== // ---------- CONFIG ---------- // Common prefix for all user states const PREFIX = '0_userdata.0.pvundstrom.bkws.'; // MQTT inputs const MQTT_JSON_BKW1 = 'mqtt.0.shellies.sonstiges.bkw1.status.switch:0'; const MQTT_JSON_BKW2 = 'mqtt.0.shellies.sonstiges.bkw2.status.switch:0'; // Self-consumption per BKW (W) const SELF_BKW1 = PREFIX + '1.wr_selfconsumption_w'; const SELF_BKW2 = PREFIX + '2.wr_selfconsumption_w'; // Live power outputs (W) const OUT_PWR_BKW1 = PREFIX + '1.power_w'; const OUT_PWR_BKW2 = PREFIX + '2.power_w'; const OUT_PWR_ALL = PREFIX + 'all.power_w'; // Energy states BKW1 const BKW1_TODAY_Wh = PREFIX + '1.today_wh'; const BKW1_TODAY_kWh = PREFIX + '1.today_kwh'; const BKW1_LASTTS_MS = PREFIX + '1.lastts_ms'; const BKW1_GRAFANA_DAILY = PREFIX + '1.grafana_daily_kwh'; const BKW1_TOTAL_KWH = PREFIX + '1.total_kwh'; // Energy states BKW2 const BKW2_TODAY_Wh = PREFIX + '2.today_wh'; const BKW2_TODAY_kWh = PREFIX + '2.today_kwh'; const BKW2_LASTTS_MS = PREFIX + '2.lastts_ms'; const BKW2_GRAFANA_DAILY = PREFIX + '2.grafana_daily_kwh'; const BKW2_TOTAL_KWH = PREFIX + '2.total_kwh'; // Aggregated energy states const OUT_TOTAL_TODAY_Wh = PREFIX + 'all.today_wh'; const OUT_TOTAL_TODAY_kWh = PREFIX + 'all.today_kwh'; const OUT_TOTAL_GRAFANA = PREFIX + 'all.grafana_daily_kwh'; const OUT_TOTAL_CUM_KWH = PREFIX + 'all.total_kwh'; const EPS_W = 1; const AGG_DEBOUNCE_MS = 300; const MAX_DT_MS = 5000; const FALLBACK_DT_MS = 1000; const ROUND_DISPLAY = 3; const RUN_AT_0005 = false; // Debug switch const DEBUG = false; function dbg(msg) { if (DEBUG) log('[BKW] ' + msg); } // ---------- DEVICE MAP ---------- const DEVICES = [ { name: 'bkw1', inJsonId: MQTT_JSON_BKW1, selfId: SELF_BKW1, outId: OUT_PWR_BKW1, todayWh: BKW1_TODAY_Wh, todayKWh: BKW1_TODAY_kWh, lastTs: BKW1_LASTTS_MS, grafDaily:BKW1_GRAFANA_DAILY, totalKWh: BKW1_TOTAL_KWH, }, { name: 'bkw2', inJsonId: MQTT_JSON_BKW2, selfId: SELF_BKW2, outId: OUT_PWR_BKW2, todayWh: BKW2_TODAY_Wh, todayKWh: BKW2_TODAY_kWh, lastTs: BKW2_LASTTS_MS, grafDaily:BKW2_GRAFANA_DAILY, totalKWh: BKW2_TOTAL_KWH, }, // add more BKWs with same structure if needed ]; // ---------- HELPERS ---------- /** * Convert to finite number with fallback. * @param {any} value * @param {number} fallback * @returns {number} */ function toNumberOr(value, fallback) { const num = Number(value); return Number.isFinite(num) ? num : (Number.isFinite(fallback) ? fallback : 0); } const existsCache = new Map(); /** * Check object existence (cached). Warn once if missing. * @param {string} id * @returns {boolean} */ function objectExists(id) { if (existsCache.has(id)) return existsCache.get(id); const ok = !!getObject(id); existsCache.set(id, ok); if (!ok) log('[BKW] Missing object: ' + id, 'warn'); return ok; } /** * Write only if object exists AND the value changed beyond epsilon. * Allows explicit write of zero even within epsilon. * @param {string} id * @param {any} nextVal * @param {number} eps * @param {boolean} ack */ function writeIfChanged(id, nextVal, eps, ack) { if (!objectExists(id)) return; const cur = getState(id); const curVal = cur ? cur.val : undefined; if (typeof nextVal === 'number') { const curNum = Number(curVal); if (Number.isFinite(curNum)) { const withinEps = Math.abs(curNum - nextVal) <= eps; const zeroOverride = nextVal === 0 && curNum > 0; if (withinEps && !zeroOverride) return; } } else if (curVal === nextVal) { return; } setState(id, nextVal, ack); } /** * Write only if object exists (no change check). * @param {string} id * @param {any} nextVal * @param {boolean} ack */ function writeIfExists(id, nextVal, ack) { if (!objectExists(id)) return; setState(id, nextVal, ack); } // ---------- AGGREGATE POWER ---------- let aggTimer = null; /** Debounced update of aggregate power state. */ function scheduleAggregateUpdate() { if (aggTimer) return; aggTimer = setTimeout(function () { aggTimer = null; try { let sum = 0; for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; if (!objectExists(d.outId)) continue; const s = getState(d.outId); sum += s ? toNumberOr(s.val, 0) : 0; } writeIfChanged(OUT_PWR_ALL, sum, EPS_W, true); } catch (e) { log('[BKW] aggregate update failed: ' + (e && e.message ? e.message : e), 'warn'); } }, AGG_DEBOUNCE_MS); } // ---------- ENERGY INTEGRATION ---------- const lastTsCache = new Map(); /** * Integrate device energy based on elapsed time and net power. * Updates: lastTs, todayWh, todayKWh and aggregated today totals. * @param {{name:string,lastTs:string,todayWh:string,todayKWh:string}} dev * @param {number} netPowerW */ function integrateDeviceEnergy(dev, netPowerW) { const now = Date.now(); let last = lastTsCache.get(dev.name); if (!Number.isFinite(last)) last = toNumberOr(getState(dev.lastTs)?.val, now); let dt = now - last; if (dt < 0 || dt > MAX_DT_MS) { dt = FALLBACK_DT_MS; dbg('[' + dev.name + '] implausible dt → fallback ' + dt + 'ms'); } // If no power, just advance lastTs to keep dt bounded. if (netPowerW <= 0) { writeIfExists(dev.lastTs, now, true); lastTsCache.set(dev.name, now); return; } const WhInc = netPowerW * (dt / 3600000); let todayWh = toNumberOr(getState(dev.todayWh)?.val, 0) + WhInc; if (todayWh < 0) todayWh = 0; const todayKWh = todayWh / 1000; writeIfExists(dev.lastTs, now, true); lastTsCache.set(dev.name, now); writeIfExists(dev.todayWh, todayWh, true); writeIfChanged(dev.todayKWh, Number(todayKWh.toFixed(ROUND_DISPLAY)), 0, true); // Update aggregated "today" let sumWh = 0; for (let i = 0; i < DEVICES.length; i++) { sumWh += toNumberOr(getState(DEVICES[i].todayWh)?.val, 0); } writeIfExists(OUT_TOTAL_TODAY_Wh, sumWh, true); writeIfChanged(OUT_TOTAL_TODAY_kWh, Number((sumWh / 1000).toFixed(ROUND_DISPLAY)), 0, true); } // ---------- INIT ---------- (function init() { try { // Check existence (no creation) for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; objectExists(d.inJsonId); objectExists(d.selfId); objectExists(d.outId); objectExists(d.todayWh); objectExists(d.todayKWh); objectExists(d.lastTs); objectExists(d.grafDaily);objectExists(d.totalKWh); } objectExists(OUT_PWR_ALL); objectExists(OUT_TOTAL_TODAY_Wh); objectExists(OUT_TOTAL_TODAY_kWh); objectExists(OUT_TOTAL_GRAFANA); objectExists(OUT_TOTAL_CUM_KWH); // Initial live power & lastTs cache for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; if (!objectExists(d.inJsonId) || !objectExists(d.outId)) continue; if (!objectExists(d.selfId)) log('[BKW] Note: self-consumption missing for ' + d.name + ' → 0 W', 'warn'); // Inline apower parse + net calculation let ap = 0; const jState = getState(d.inJsonId); if (jState && typeof jState.val === 'string') { try { const j = JSON.parse(jState.val); ap = Number(j && j.apower) || 0; } catch (e) { const sample = typeof jState.val === 'string' ? jState.val.slice(0, 120) : '<non-string>'; log('[BKW] JSON parse failed (' + sample + '): ' + e.message, 'warn'); } } const self = toNumberOr(getState(d.selfId)?.val, 0); const net = Math.max(0, ap - self); writeIfChanged(d.outId, net, EPS_W, true); const lastStored = toNumberOr(getState(d.lastTs)?.val, NaN); lastTsCache.set(d.name, Number.isFinite(lastStored) ? lastStored : Date.now()); } scheduleAggregateUpdate(); // Event listeners for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; // MQTT JSON changed if (objectExists(d.inJsonId)) { on({ id: d.inJsonId, change: 'ne' }, (obj) => { try { // Inline apower parse let ap = 0; if (obj && obj.state && typeof obj.state.val === 'string') { try { const j = JSON.parse(obj.state.val); ap = Number(j && j.apower) || 0; } catch (e) { const sample = typeof obj.state.val === 'string' ? obj.state.val.slice(0, 120) : '<non-string>'; log('[BKW] JSON parse failed (' + sample + '): ' + e.message, 'warn'); } } const self = toNumberOr(getState(d.selfId)?.val, 0); const net = Math.max(0, ap - self); writeIfChanged(d.outId, net, EPS_W, true); scheduleAggregateUpdate(); integrateDeviceEnergy(d, net); } catch (e) { log('[BKW] onJSON ' + d.name + ' failed: ' + (e && e.message ? e.message : e), 'warn'); } }); } // Self-consumption changed if (objectExists(d.selfId)) { on({ id: d.selfId, change: 'ne' }, () => { try { // Inline apower parse + net let ap = 0; const jState = getState(d.inJsonId); if (jState && typeof jState.val === 'string') { try { const j = JSON.parse(jState.val); ap = Number(j && j.apower) || 0; } catch (e) { const sample = typeof jState.val === 'string' ? jState.val.slice(0, 120) : '<non-string>'; log('[BKW] JSON parse failed (' + sample + '): ' + e.message, 'warn'); } } const self = toNumberOr(getState(d.selfId)?.val, 0); const net = Math.max(0, ap - self); writeIfChanged(d.outId, net, EPS_W, true); scheduleAggregateUpdate(); integrateDeviceEnergy(d, net); } catch (e) { log('[BKW] onSelf ' + d.name + ' failed: ' + (e && e.message ? e.message : e), 'warn'); } }); } } log('[BKW] Live power + energy script started (MQTT push, no-create).', 'info'); } catch (e) { log('[BKW] init failed: ' + (e && e.message ? e.message : e), 'error'); } })(); // ---------- DAILY CLOSE ---------- /** * Daily close: write yesterday's kWh (ts = prev day 23:59:59.999), * accumulate totals, reset today's counters. */ function dailyClose() { try { const tsStartToday = new Date().setHours(0, 0, 0, 0); const tsPrevDayEnd = tsStartToday - 1; let totalDayKWh = 0; for (let i = 0; i < DEVICES.length; i++) { const d = DEVICES[i]; const dayKWh = toNumberOr(getState(d.todayKWh)?.val, 0); totalDayKWh += dayKWh; writeIfExists(d.grafDaily, { val: Number(dayKWh.toFixed(ROUND_DISPLAY)), ts: tsPrevDayEnd }, true); const cum = toNumberOr(getState(d.totalKWh)?.val, 0) + dayKWh; writeIfExists(d.totalKWh, Number(cum.toFixed(ROUND_DISPLAY)), true); writeIfExists(d.todayWh, 0, true); writeIfExists(d.todayKWh, 0, true); const now = Date.now(); writeIfExists(d.lastTs, now, true); lastTsCache.set(d.name, now); } writeIfExists(OUT_TOTAL_GRAFANA, { val: Number(totalDayKWh.toFixed(ROUND_DISPLAY)), ts: tsPrevDayEnd }, true); const totalCum = toNumberOr(getState(OUT_TOTAL_CUM_KWH)?.val, 0) + totalDayKWh; writeIfExists(OUT_TOTAL_CUM_KWH, Number(totalCum.toFixed(ROUND_DISPLAY)), true); writeIfExists(OUT_TOTAL_TODAY_Wh, 0, true); writeIfExists(OUT_TOTAL_TODAY_kWh, 0, true); log('[BKW] Daily close: total=' + totalDayKWh.toFixed(ROUND_DISPLAY) + ' kWh; cum=' + totalCum.toFixed(ROUND_DISPLAY) + ' kWh'); } catch (e) { log('[BKW] daily close failed: ' + (e && e.message ? e.message : e), 'warn'); } } // Cron 00:00 schedule('0 0 * * *', dailyClose); // Optional 00:05 if (RUN_AT_0005) { schedule('5 0 * * *', function () { try { dailyClose(); log('[BKW] 00:05 refresh executed.'); } catch (e) { log('[BKW] 00:05 error: ' + e, 'warn'); } }); }So, bin - mein Eindruck - ein deutliches Stück weiter gekommen. Ich habe ein Regelwerk festgelegt das wir nun für die Skript Aktivitäten nutzen und uns auf verschiedene Dinge verständigt (wie z.B. Versionierung usw.). Auch wann es sinnvoll ist Helper (functions) anzulegen und wann nicht.
Das geht in die richtige Richtung und ich lerne auch was dabei.
Macht immer mehr Spaß das Ganze.
/** * BKW Live Power + Daily/Total Energy (MQTT push) * Version: 0.1.0 * Changelog: * - 0.1.0 (2025-10-01) Start of versioning; compact event-driven integration; self-consumption in mW; no existence checks * * Summary: * - Reads Shelly MQTT JSON (status.switch:0 → apower in W) * - Net per BKW = max(0, apower_W - self_W); self is provided in mW (integer) * - Integrates energy event-based using full elapsed time (Δt) since last event * - Daily close at 00:00: writes kWh per BKW + total (Grafana) and updates cumulative totals * * Notes: * - Assumes all datapoints exist; no auto-creation, no existence checks * - Rounds kWh once when writing the kWh states */ // ========================== Configuration ========================== /** Common prefix for all user states */ const PREFIX = '0_userdata.0.pvundstrom.bkws.'; /** Shelly MQTT inputs (JSON strings with field "apower") */ const MQTT_JSON_BKW1 = 'mqtt.0.shellies.sonstiges.bkw1.status.switch:0'; const MQTT_JSON_BKW2 = 'mqtt.0.shellies.sonstiges.bkw2.status.switch:0'; /** WR self-consumption (mW, integer, e.g. 400 → 0.4 W) */ const SELF_BKW1_mW = PREFIX + '1.wr_selfconsumption_mw'; const SELF_BKW2_mW = PREFIX + '2.wr_selfconsumption_mw'; /** Live power outputs (W, NET after self-consumption) */ const OUT_PWR_BKW1 = PREFIX + '1.power_w'; const OUT_PWR_BKW2 = PREFIX + '2.power_w'; const OUT_PWR_ALL = PREFIX + 'all.power_w'; /** Energy states BKW1 */ const BKW1_TODAY_Wh = PREFIX + '1.today_wh'; const BKW1_TODAY_kWh = PREFIX + '1.today_kwh'; const BKW1_LASTTS_MS = PREFIX + '1.lastts_ms'; const BKW1_GRAFANA_DAILY = PREFIX + '1.grafana_daily_kwh'; const BKW1_TOTAL_KWH = PREFIX + '1.total_kwh'; /** Energy states BKW2 */ const BKW2_TODAY_Wh = PREFIX + '2.today_wh'; const BKW2_TODAY_kWh = PREFIX + '2.today_kwh'; const BKW2_LASTTS_MS = PREFIX + '2.lastts_ms'; const BKW2_GRAFANA_DAILY = PREFIX + '2.grafana_daily_kwh'; const BKW2_TOTAL_KWH = PREFIX + '2.total_kwh'; /** Aggregated energy states */ const OUT_TOTAL_TODAY_Wh = PREFIX + 'all.today_wh'; const OUT_TOTAL_TODAY_kWh = PREFIX + 'all.today_kwh'; const OUT_TOTAL_GRAFANA = PREFIX + 'all.grafana_daily_kwh'; const OUT_TOTAL_CUM_KWH = PREFIX + 'all.total_kwh'; /** Tolerances & formatting */ const EPS_W = 1; // write threshold for live power const ROUND_DISPLAY = 3; // kWh rounding for display/storage const RUN_AT_0005 = false; // optional second daily close at 00:05 /** Debug switch */ const DEBUG = false; function dbg(msg) { if (DEBUG) log('[BKW] ' + msg); } // Device map const DEVICES = [ { name: 'bkw1', inJsonId: MQTT_JSON_BKW1, selfMwId: SELF_BKW1_mW, outId: OUT_PWR_BKW1, todayWh: BKW1_TODAY_Wh, todayKWh: BKW1_TODAY_kWh, lastTs: BKW1_LASTTS_MS, grafDaily:BKW1_GRAFANA_DAILY, totalKWh: BKW1_TOTAL_KWH, }, { name: 'bkw2', inJsonId: MQTT_JSON_BKW2, selfMwId: SELF_BKW2_mW, outId: OUT_PWR_BKW2, todayWh: BKW2_TODAY_Wh, todayKWh: BKW2_TODAY_kWh, lastTs: BKW2_LASTTS_MS, grafDaily:BKW2_GRAFANA_DAILY, totalKWh: BKW2_TOTAL_KWH, }, ]; // ========================== Lightweight helpers ========================== /** Number coercion with fallback */ function toNumber(v, fb = 0) { const n = Number(v); return Number.isFinite(n) ? n : fb; } /** Changed-only numeric write with epsilon */ function setIfChangedNumber(id, next, eps = 0, ack = true) { const cur = Number(getState(id)?.val); const within = Number.isFinite(cur) ? Math.abs(cur - next) <= eps : false; if (!within) setState(id, next, ack); } /** Parse Shelly JSON → apower (W), clamped to >=0 */ function parseApowerW(jsonVal) { let ap = 0; if (typeof jsonVal === 'string') { try { ap = Number(JSON.parse(jsonVal)?.apower) || 0; } catch (e) { const sample = jsonVal.slice(0, 120); log('[BKW] JSON parse failed (' + sample + '): ' + e.message, 'warn'); } } if (!Number.isFinite(ap) || ap < 0) ap = 0; return ap; } /** Read self-consumption in W from mW state (>=0) */ function readSelfW(id) { const mw = toNumber(getState(id)?.val, 0); return mw > 0 ? (mw / 1000) : 0; } // ========================== Aggregate live power ========================== let aggTimer = null; function scheduleAggregateLive() { if (aggTimer) return; aggTimer = setTimeout(() => { aggTimer = null; try { let sum = 0; for (const d of DEVICES) { const v = toNumber(getState(d.outId)?.val, 0); if (v > 0) sum += v; } if (sum < 0) sum = 0; setIfChangedNumber(OUT_PWR_ALL, sum, EPS_W, true); } catch (e) { log('[BKW] aggregate update failed: ' + (e && e.message ? e.message : e), 'warn'); } }, 300); // small debounce for aggregate } // ========================== Energy integration per device ========================== const lastTsCache = new Map(); /** * Integrate energy using full Δt since last event; update live power and daily totals. * @param {*} dev device entry from DEVICES * @param {number} apowerW AC power from Shelly (W, >=0) * @param {number} selfW WR self-consumption (W, >=0) */ function integrate(dev, apowerW, selfW) { const now = Date.now(); let last = lastTsCache.get(dev.name); if (!Number.isFinite(last)) last = toNumber(getState(dev.lastTs)?.val, now); // Full elapsed time since last event (no cap), protect against negative let dt = now - last; if (dt < 0) dt = 0; // Advance lastTs immediately to avoid Δt growth on next event setState(dev.lastTs, now, true); lastTsCache.set(dev.name, now); // Net power (never negative) const P = apowerW > 0 ? apowerW : 0; const S = selfW > 0 ? selfW : 0; const netW = Math.max(0, P - S); // Live power (changed-only) setIfChangedNumber(dev.outId, netW, EPS_W, true); // No energy when net power is zero if (netW <= 0) return; // W * (ms → h) = Wh const WhInc = netW * (dt / 3600000); let todayWh = toNumber(getState(dev.todayWh)?.val, 0) + WhInc; if (todayWh < 0) todayWh = 0; const todayKWh = todayWh / 1000; setState(dev.todayWh, todayWh, true); setState(dev.todayKWh, Number(todayKWh.toFixed(ROUND_DISPLAY)), true); // Update aggregated "today" let sumWh = 0; for (const d2 of DEVICES) { const v = toNumber(getState(d2.todayWh)?.val, 0); if (v > 0) sumWh += v; } if (sumWh < 0) sumWh = 0; setState(OUT_TOTAL_TODAY_Wh, sumWh, true); setState(OUT_TOTAL_TODAY_kWh, Number((sumWh / 1000).toFixed(ROUND_DISPLAY)), true); dbg(`[${dev.name}] P=${P}W, self=${S}W, net=${netW}W, dt=${dt}ms, Wh+=${WhInc.toFixed(3)}`); } // ========================== Init & Event binding ========================== (function init() { try { // Initialize live power and lastTs cache from current states for (const d of DEVICES) { const ap = parseApowerW(getState(d.inJsonId)?.val); const self = readSelfW(d.selfMwId); const net = Math.max(0, ap - self); setIfChangedNumber(d.outId, net, EPS_W, true); const lastStored = toNumber(getState(d.lastTs)?.val, NaN); lastTsCache.set(d.name, Number.isFinite(lastStored) ? lastStored : Date.now()); } scheduleAggregateLive(); // Event listeners for (const d of DEVICES) { // MQTT JSON changed or re-written → integrate on({ id: d.inJsonId, change: 'any' }, (obj) => { try { const ap = parseApowerW(obj?.state?.val); const self = readSelfW(d.selfMwId); integrate(d, ap, self); scheduleAggregateLive(); } catch (e) { log('[BKW] onJSON ' + d.name + ' failed: ' + (e && e.message ? e.message : e), 'warn'); } }); // Self-consumption changed (mW) → recompute/integrate at current apower on({ id: d.selfMwId, change: 'ne' }, () => { try { const ap = parseApowerW(getState(d.inJsonId)?.val); const self = readSelfW(d.selfMwId); integrate(d, ap, self); scheduleAggregateLive(); } catch (e) { log('[BKW] onSelf ' + d.name + ' failed: ' + (e && e.message ? e.message : e), 'warn'); } }); } log('[BKW] Live power + energy script started (MQTT push).', 'info'); } catch (e) { log('[BKW] init failed: ' + (e && e.message ? e.message : e), 'error'); } })(); // ========================== Daily close ========================== /** * Daily close: write yesterday's kWh (ts = prev day 23:59:59.999), * accumulate totals, reset today's counters and lastTs. */ function dailyClose() { try { const tsStartToday = new Date().setHours(0, 0, 0, 0); const tsPrevDayEnd = tsStartToday - 1; let totalDayKWh = 0; for (const d of DEVICES) { let dayKWh = toNumber(getState(d.todayKWh)?.val, 0); if (dayKWh < 0) dayKWh = 0; // Grafana daily (fixed timestamp) setState(d.grafDaily, { val: Number(dayKWh.toFixed(ROUND_DISPLAY)), ts: tsPrevDayEnd }, true); // Cumulative per device const cum = Math.max(0, toNumber(getState(d.totalKWh)?.val, 0) + dayKWh); setState(d.totalKWh, Number(cum.toFixed(ROUND_DISPLAY)), true); // Running totals reset setState(d.todayWh, 0, true); setState(d.todayKWh, 0, true); // Refresh lastTs const now = Date.now(); setState(d.lastTs, now, true); lastTsCache.set(d.name, now); totalDayKWh += dayKWh; } if (totalDayKWh < 0) totalDayKWh = 0; // Aggregated daily + cumulative setState(OUT_TOTAL_GRAFANA, { val: Number(totalDayKWh.toFixed(ROUND_DISPLAY)), ts: tsPrevDayEnd }, true); const totalCum = Math.max(0, toNumber(getState(OUT_TOTAL_CUM_KWH)?.val, 0) + totalDayKWh); setState(OUT_TOTAL_CUM_KWH, Number(totalCum.toFixed(ROUND_DISPLAY)), true); // Reset aggregated "today" setState(OUT_TOTAL_TODAY_Wh, 0, true); setState(OUT_TOTAL_TODAY_kWh, 0, true); log(`[BKW] Daily close: total=${totalDayKWh.toFixed(ROUND_DISPLAY)} kWh; cum=${totalCum.toFixed(ROUND_DISPLAY)} kWh`); } catch (e) { log('[BKW] daily close failed: ' + (e && e.message ? e.message : e), 'warn'); } } // Cron 00:00 schedule('0 0 * * *', dailyClose); // Optional 00:05 if (RUN_AT_0005) { schedule('5 0 * * *', () => { try { dailyClose(); log('[BKW] 00:05 refresh executed.'); } catch (e) { log('[BKW] 00:05 error: ' + e, 'warn'); } }); } -
So, bin - mein Eindruck - ein deutliches Stück weiter gekommen. Ich habe ein Regelwerk festgelegt das wir nun für die Skript Aktivitäten nutzen und uns auf verschiedene Dinge verständigt (wie z.B. Versionierung usw.). Auch wann es sinnvoll ist Helper (functions) anzulegen und wann nicht.
Das geht in die richtige Richtung und ich lerne auch was dabei.
Macht immer mehr Spaß das Ganze.
/** * BKW Live Power + Daily/Total Energy (MQTT push) * Version: 0.1.0 * Changelog: * - 0.1.0 (2025-10-01) Start of versioning; compact event-driven integration; self-consumption in mW; no existence checks * * Summary: * - Reads Shelly MQTT JSON (status.switch:0 → apower in W) * - Net per BKW = max(0, apower_W - self_W); self is provided in mW (integer) * - Integrates energy event-based using full elapsed time (Δt) since last event * - Daily close at 00:00: writes kWh per BKW + total (Grafana) and updates cumulative totals * * Notes: * - Assumes all datapoints exist; no auto-creation, no existence checks * - Rounds kWh once when writing the kWh states */ // ========================== Configuration ========================== /** Common prefix for all user states */ const PREFIX = '0_userdata.0.pvundstrom.bkws.'; /** Shelly MQTT inputs (JSON strings with field "apower") */ const MQTT_JSON_BKW1 = 'mqtt.0.shellies.sonstiges.bkw1.status.switch:0'; const MQTT_JSON_BKW2 = 'mqtt.0.shellies.sonstiges.bkw2.status.switch:0'; /** WR self-consumption (mW, integer, e.g. 400 → 0.4 W) */ const SELF_BKW1_mW = PREFIX + '1.wr_selfconsumption_mw'; const SELF_BKW2_mW = PREFIX + '2.wr_selfconsumption_mw'; /** Live power outputs (W, NET after self-consumption) */ const OUT_PWR_BKW1 = PREFIX + '1.power_w'; const OUT_PWR_BKW2 = PREFIX + '2.power_w'; const OUT_PWR_ALL = PREFIX + 'all.power_w'; /** Energy states BKW1 */ const BKW1_TODAY_Wh = PREFIX + '1.today_wh'; const BKW1_TODAY_kWh = PREFIX + '1.today_kwh'; const BKW1_LASTTS_MS = PREFIX + '1.lastts_ms'; const BKW1_GRAFANA_DAILY = PREFIX + '1.grafana_daily_kwh'; const BKW1_TOTAL_KWH = PREFIX + '1.total_kwh'; /** Energy states BKW2 */ const BKW2_TODAY_Wh = PREFIX + '2.today_wh'; const BKW2_TODAY_kWh = PREFIX + '2.today_kwh'; const BKW2_LASTTS_MS = PREFIX + '2.lastts_ms'; const BKW2_GRAFANA_DAILY = PREFIX + '2.grafana_daily_kwh'; const BKW2_TOTAL_KWH = PREFIX + '2.total_kwh'; /** Aggregated energy states */ const OUT_TOTAL_TODAY_Wh = PREFIX + 'all.today_wh'; const OUT_TOTAL_TODAY_kWh = PREFIX + 'all.today_kwh'; const OUT_TOTAL_GRAFANA = PREFIX + 'all.grafana_daily_kwh'; const OUT_TOTAL_CUM_KWH = PREFIX + 'all.total_kwh'; /** Tolerances & formatting */ const EPS_W = 1; // write threshold for live power const ROUND_DISPLAY = 3; // kWh rounding for display/storage const RUN_AT_0005 = false; // optional second daily close at 00:05 /** Debug switch */ const DEBUG = false; function dbg(msg) { if (DEBUG) log('[BKW] ' + msg); } // Device map const DEVICES = [ { name: 'bkw1', inJsonId: MQTT_JSON_BKW1, selfMwId: SELF_BKW1_mW, outId: OUT_PWR_BKW1, todayWh: BKW1_TODAY_Wh, todayKWh: BKW1_TODAY_kWh, lastTs: BKW1_LASTTS_MS, grafDaily:BKW1_GRAFANA_DAILY, totalKWh: BKW1_TOTAL_KWH, }, { name: 'bkw2', inJsonId: MQTT_JSON_BKW2, selfMwId: SELF_BKW2_mW, outId: OUT_PWR_BKW2, todayWh: BKW2_TODAY_Wh, todayKWh: BKW2_TODAY_kWh, lastTs: BKW2_LASTTS_MS, grafDaily:BKW2_GRAFANA_DAILY, totalKWh: BKW2_TOTAL_KWH, }, ]; // ========================== Lightweight helpers ========================== /** Number coercion with fallback */ function toNumber(v, fb = 0) { const n = Number(v); return Number.isFinite(n) ? n : fb; } /** Changed-only numeric write with epsilon */ function setIfChangedNumber(id, next, eps = 0, ack = true) { const cur = Number(getState(id)?.val); const within = Number.isFinite(cur) ? Math.abs(cur - next) <= eps : false; if (!within) setState(id, next, ack); } /** Parse Shelly JSON → apower (W), clamped to >=0 */ function parseApowerW(jsonVal) { let ap = 0; if (typeof jsonVal === 'string') { try { ap = Number(JSON.parse(jsonVal)?.apower) || 0; } catch (e) { const sample = jsonVal.slice(0, 120); log('[BKW] JSON parse failed (' + sample + '): ' + e.message, 'warn'); } } if (!Number.isFinite(ap) || ap < 0) ap = 0; return ap; } /** Read self-consumption in W from mW state (>=0) */ function readSelfW(id) { const mw = toNumber(getState(id)?.val, 0); return mw > 0 ? (mw / 1000) : 0; } // ========================== Aggregate live power ========================== let aggTimer = null; function scheduleAggregateLive() { if (aggTimer) return; aggTimer = setTimeout(() => { aggTimer = null; try { let sum = 0; for (const d of DEVICES) { const v = toNumber(getState(d.outId)?.val, 0); if (v > 0) sum += v; } if (sum < 0) sum = 0; setIfChangedNumber(OUT_PWR_ALL, sum, EPS_W, true); } catch (e) { log('[BKW] aggregate update failed: ' + (e && e.message ? e.message : e), 'warn'); } }, 300); // small debounce for aggregate } // ========================== Energy integration per device ========================== const lastTsCache = new Map(); /** * Integrate energy using full Δt since last event; update live power and daily totals. * @param {*} dev device entry from DEVICES * @param {number} apowerW AC power from Shelly (W, >=0) * @param {number} selfW WR self-consumption (W, >=0) */ function integrate(dev, apowerW, selfW) { const now = Date.now(); let last = lastTsCache.get(dev.name); if (!Number.isFinite(last)) last = toNumber(getState(dev.lastTs)?.val, now); // Full elapsed time since last event (no cap), protect against negative let dt = now - last; if (dt < 0) dt = 0; // Advance lastTs immediately to avoid Δt growth on next event setState(dev.lastTs, now, true); lastTsCache.set(dev.name, now); // Net power (never negative) const P = apowerW > 0 ? apowerW : 0; const S = selfW > 0 ? selfW : 0; const netW = Math.max(0, P - S); // Live power (changed-only) setIfChangedNumber(dev.outId, netW, EPS_W, true); // No energy when net power is zero if (netW <= 0) return; // W * (ms → h) = Wh const WhInc = netW * (dt / 3600000); let todayWh = toNumber(getState(dev.todayWh)?.val, 0) + WhInc; if (todayWh < 0) todayWh = 0; const todayKWh = todayWh / 1000; setState(dev.todayWh, todayWh, true); setState(dev.todayKWh, Number(todayKWh.toFixed(ROUND_DISPLAY)), true); // Update aggregated "today" let sumWh = 0; for (const d2 of DEVICES) { const v = toNumber(getState(d2.todayWh)?.val, 0); if (v > 0) sumWh += v; } if (sumWh < 0) sumWh = 0; setState(OUT_TOTAL_TODAY_Wh, sumWh, true); setState(OUT_TOTAL_TODAY_kWh, Number((sumWh / 1000).toFixed(ROUND_DISPLAY)), true); dbg(`[${dev.name}] P=${P}W, self=${S}W, net=${netW}W, dt=${dt}ms, Wh+=${WhInc.toFixed(3)}`); } // ========================== Init & Event binding ========================== (function init() { try { // Initialize live power and lastTs cache from current states for (const d of DEVICES) { const ap = parseApowerW(getState(d.inJsonId)?.val); const self = readSelfW(d.selfMwId); const net = Math.max(0, ap - self); setIfChangedNumber(d.outId, net, EPS_W, true); const lastStored = toNumber(getState(d.lastTs)?.val, NaN); lastTsCache.set(d.name, Number.isFinite(lastStored) ? lastStored : Date.now()); } scheduleAggregateLive(); // Event listeners for (const d of DEVICES) { // MQTT JSON changed or re-written → integrate on({ id: d.inJsonId, change: 'any' }, (obj) => { try { const ap = parseApowerW(obj?.state?.val); const self = readSelfW(d.selfMwId); integrate(d, ap, self); scheduleAggregateLive(); } catch (e) { log('[BKW] onJSON ' + d.name + ' failed: ' + (e && e.message ? e.message : e), 'warn'); } }); // Self-consumption changed (mW) → recompute/integrate at current apower on({ id: d.selfMwId, change: 'ne' }, () => { try { const ap = parseApowerW(getState(d.inJsonId)?.val); const self = readSelfW(d.selfMwId); integrate(d, ap, self); scheduleAggregateLive(); } catch (e) { log('[BKW] onSelf ' + d.name + ' failed: ' + (e && e.message ? e.message : e), 'warn'); } }); } log('[BKW] Live power + energy script started (MQTT push).', 'info'); } catch (e) { log('[BKW] init failed: ' + (e && e.message ? e.message : e), 'error'); } })(); // ========================== Daily close ========================== /** * Daily close: write yesterday's kWh (ts = prev day 23:59:59.999), * accumulate totals, reset today's counters and lastTs. */ function dailyClose() { try { const tsStartToday = new Date().setHours(0, 0, 0, 0); const tsPrevDayEnd = tsStartToday - 1; let totalDayKWh = 0; for (const d of DEVICES) { let dayKWh = toNumber(getState(d.todayKWh)?.val, 0); if (dayKWh < 0) dayKWh = 0; // Grafana daily (fixed timestamp) setState(d.grafDaily, { val: Number(dayKWh.toFixed(ROUND_DISPLAY)), ts: tsPrevDayEnd }, true); // Cumulative per device const cum = Math.max(0, toNumber(getState(d.totalKWh)?.val, 0) + dayKWh); setState(d.totalKWh, Number(cum.toFixed(ROUND_DISPLAY)), true); // Running totals reset setState(d.todayWh, 0, true); setState(d.todayKWh, 0, true); // Refresh lastTs const now = Date.now(); setState(d.lastTs, now, true); lastTsCache.set(d.name, now); totalDayKWh += dayKWh; } if (totalDayKWh < 0) totalDayKWh = 0; // Aggregated daily + cumulative setState(OUT_TOTAL_GRAFANA, { val: Number(totalDayKWh.toFixed(ROUND_DISPLAY)), ts: tsPrevDayEnd }, true); const totalCum = Math.max(0, toNumber(getState(OUT_TOTAL_CUM_KWH)?.val, 0) + totalDayKWh); setState(OUT_TOTAL_CUM_KWH, Number(totalCum.toFixed(ROUND_DISPLAY)), true); // Reset aggregated "today" setState(OUT_TOTAL_TODAY_Wh, 0, true); setState(OUT_TOTAL_TODAY_kWh, 0, true); log(`[BKW] Daily close: total=${totalDayKWh.toFixed(ROUND_DISPLAY)} kWh; cum=${totalCum.toFixed(ROUND_DISPLAY)} kWh`); } catch (e) { log('[BKW] daily close failed: ' + (e && e.message ? e.message : e), 'warn'); } } // Cron 00:00 schedule('0 0 * * *', dailyClose); // Optional 00:05 if (RUN_AT_0005) { schedule('5 0 * * *', () => { try { dailyClose(); log('[BKW] 00:05 refresh executed.'); } catch (e) { log('[BKW] 00:05 error: ' + e, 'warn'); } }); }@hotspot_2 sagte in Skript läuft plötzlich nicht mehr:
Auch wann es sinnvoll ist Helper (functions) anzulegen und wann nicht.
Das geht in die richtige Richtung und ich lerne auch was dabei.hardcore sprach-stilisten wollen eine funktion nicht mehr wie 10-20 Zeilen lang + Dokumentation.
Nur dann bleibt der code für jemanden 3.wartbar oder auch für dich wenn du nach einem Jahr wieder drauf schauen musst.
d.h. Funktionen entsprechend unterteilen.
Dann gäbe es noch die Steuerungsschicht (wo nur die Logik hinterlegt ist) und dann die eigentliche Funktionsebene, anhand der die Steuerungsschicht entscheidet wohin es hingeht und welche Ergebnisse wie verarbeitet werden.
Aber das ist dann schon sehr Theorie
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