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uprava adutiu - nacitani dalsich registru, uprava ekonomiky
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This commit is contained in:
Dusan Vojacek
2026-04-10 21:53:32 +02:00
parent 25090a9d95
commit 806274cf59
9 changed files with 440 additions and 130 deletions
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159
backend/app/routers/economics.py
View File

@@ -27,11 +27,13 @@ class DailyEconomics(BaseModel):
export_kwh: float
pv_kwh: float
load_kwh: float
self_consumption_kwh: float
pv_self_consumption_kwh: float
ev_kwh: float
hp_kwh: float
import_cost_czk: float
export_revenue_czk: float
grid_import_cashflow_czk: float
grid_export_revenue_czk: float
net_cost_czk: float
green_bonus_czk: float
total_balance_czk: float
@@ -50,6 +52,8 @@ class IntervalEconomics(BaseModel):
import_kwh: float
export_kwh: float
dynamic_cost_czk: float | None
grid_import_cashflow_czk: float | None
grid_export_revenue_czk: float | None
stored_cost_czk: float | None
green_bonus_czk: float | None
planned_cost_czk: float | None
@@ -68,7 +72,12 @@ class IntervalEconomics(BaseModel):
class ChartDayPoint(BaseModel):
day: date
daily_balance_czk: float
daily_grid_balance_czk: float
daily_green_bonus_czk: float
daily_import_cost_czk: float
daily_export_revenue_czk: float
cumulative_balance_czk: float
cumulative_grid_balance_czk: float
class LockResponse(BaseModel):
@@ -82,6 +91,12 @@ def _num(val: Any) -> float:
return float(val)
def _opt(val: Any) -> float | None:
if val is None:
return None
return float(val)
async def _check_site(conn: asyncpg.Connection, site_id: int) -> None:
ok = await conn.fetchval(
"SELECT EXISTS(SELECT 1 FROM ems.site WHERE id = $1)", site_id
@@ -105,6 +120,43 @@ async def _has_green_bonus(conn: asyncpg.Connection, site_id: int) -> bool:
)
def _safe_get(record: Any, key: str, fallback: Any = None) -> Any:
"""Safely get a key from asyncpg Record (which supports [] but not .get())."""
try:
return record[key]
except (KeyError, TypeError):
return fallback
def _daily_from_row(r: Any, lock: Any | None, is_locked: bool) -> DailyEconomics:
src = lock if (lock and is_locked) else r
return DailyEconomics(
day=r["day_local"],
interval_count=r["interval_count"],
import_kwh=_num(r["import_kwh"]),
export_kwh=_num(r["export_kwh"]),
pv_kwh=_num(r["pv_kwh"]),
load_kwh=_num(r["load_kwh"]),
pv_self_consumption_kwh=_num(r["pv_self_consumption_kwh"]),
ev_kwh=_num(r["ev_kwh"]),
hp_kwh=_num(r["hp_kwh"]),
import_cost_czk=_num(src["import_cost_czk"]),
export_revenue_czk=_num(src["export_revenue_czk"]),
grid_import_cashflow_czk=_num(
_safe_get(src, "grid_import_cashflow_czk", r["grid_import_cashflow_czk"])
),
grid_export_revenue_czk=_num(
_safe_get(src, "grid_export_revenue_czk", r["grid_export_revenue_czk"])
),
net_cost_czk=_num(src["net_cost_czk"]),
green_bonus_czk=_num(src["green_bonus_czk"]),
total_balance_czk=_num(src["total_balance_czk"]),
planned_balance_czk=_opt(r["planned_balance_czk"]),
deviation_cost_czk=_opt(r["deviation_cost_czk"]),
is_locked=is_locked,
)
@router.get("/daily", response_model=DailyEconomicsResponse)
async def get_economics_daily(
site_id: int,
@@ -159,50 +211,7 @@ async def get_economics_daily(
for r in dyn_rows:
d = r["day_local"]
lock = locks.get(d)
if lock:
days.append(
DailyEconomics(
day=d,
interval_count=r["interval_count"],
import_kwh=_num(r["import_kwh"]),
export_kwh=_num(r["export_kwh"]),
pv_kwh=_num(r["pv_kwh"]),
load_kwh=_num(r["load_kwh"]),
self_consumption_kwh=_num(r["self_consumption_kwh"]),
ev_kwh=_num(r["ev_kwh"]),
hp_kwh=_num(r["hp_kwh"]),
import_cost_czk=_num(lock["import_cost_czk"]),
export_revenue_czk=_num(lock["export_revenue_czk"]),
net_cost_czk=_num(lock["net_cost_czk"]),
green_bonus_czk=_num(lock["green_bonus_czk"]),
total_balance_czk=_num(lock["total_balance_czk"]),
planned_balance_czk=_num(r["planned_balance_czk"]) if r["planned_balance_czk"] is not None else None,
deviation_cost_czk=_num(r["deviation_cost_czk"]) if r["deviation_cost_czk"] is not None else None,
is_locked=True,
)
)
else:
days.append(
DailyEconomics(
day=d,
interval_count=r["interval_count"],
import_kwh=_num(r["import_kwh"]),
export_kwh=_num(r["export_kwh"]),
pv_kwh=_num(r["pv_kwh"]),
load_kwh=_num(r["load_kwh"]),
self_consumption_kwh=_num(r["self_consumption_kwh"]),
ev_kwh=_num(r["ev_kwh"]),
hp_kwh=_num(r["hp_kwh"]),
import_cost_czk=_num(r["import_cost_czk"]),
export_revenue_czk=_num(r["export_revenue_czk"]),
net_cost_czk=_num(r["net_cost_czk"]),
green_bonus_czk=_num(r["green_bonus_czk"]),
total_balance_czk=_num(r["total_balance_czk"]),
planned_balance_czk=_num(r["planned_balance_czk"]) if r["planned_balance_czk"] is not None else None,
deviation_cost_czk=_num(r["deviation_cost_czk"]) if r["deviation_cost_czk"] is not None else None,
is_locked=False,
)
)
days.append(_daily_from_row(r, lock, is_locked=lock is not None))
return DailyEconomicsResponse(days=days, has_green_bonus=has_bonus)
@@ -232,20 +241,22 @@ async def get_economics_intervals(
interval_start=r["interval_start"].isoformat(),
import_kwh=_num(r["import_kwh"]),
export_kwh=_num(r["export_kwh"]),
dynamic_cost_czk=float(r["dynamic_cost_czk"]) if r["dynamic_cost_czk"] is not None else None,
stored_cost_czk=float(r["stored_cost_czk"]) if r["stored_cost_czk"] is not None else None,
green_bonus_czk=float(r["green_bonus_czk"]) if r["green_bonus_czk"] is not None else None,
planned_cost_czk=float(r["planned_cost_czk"]) if r["planned_cost_czk"] is not None else None,
dynamic_cost_czk=_opt(r["dynamic_cost_czk"]),
grid_import_cashflow_czk=_opt(r["grid_import_cashflow_czk"]),
grid_export_revenue_czk=_opt(r["grid_export_revenue_czk"]),
stored_cost_czk=_opt(r["stored_cost_czk"]),
green_bonus_czk=_opt(r["green_bonus_czk"]),
planned_cost_czk=_opt(r["planned_cost_czk"]),
planned_grid_w=int(r["planned_grid_w"]) if r["planned_grid_w"] is not None else None,
actual_grid_power_w=int(r["actual_grid_power_w"]) if r["actual_grid_power_w"] is not None else None,
effective_buy_price=float(r["effective_buy_price_czk_kwh"]) if r["effective_buy_price_czk_kwh"] is not None else None,
effective_sell_price=float(r["effective_sell_price_czk_kwh"]) if r["effective_sell_price_czk_kwh"] is not None else None,
planned_buy_price=float(r["planned_buy_price"]) if r["planned_buy_price"] is not None else None,
planned_sell_price=float(r["planned_sell_price"]) if r["planned_sell_price"] is not None else None,
effective_buy_price=_opt(r["effective_buy_price_czk_kwh"]),
effective_sell_price=_opt(r["effective_sell_price_czk_kwh"]),
planned_buy_price=_opt(r["planned_buy_price"]),
planned_sell_price=_opt(r["planned_sell_price"]),
actual_pv_power_w=int(r["actual_pv_power_w"]) if r["actual_pv_power_w"] is not None else None,
actual_load_power_w=int(r["actual_load_power_w"]) if r["actual_load_power_w"] is not None else None,
actual_battery_power_w=int(r["actual_battery_power_w"]) if r["actual_battery_power_w"] is not None else None,
actual_battery_soc_pct=float(r["actual_battery_soc_pct"]) if r["actual_battery_soc_pct"] is not None else None,
actual_battery_soc_pct=_opt(r["actual_battery_soc_pct"]),
)
for r in rows
]
@@ -263,7 +274,8 @@ async def lock_day(
row = await conn.fetchrow(
"""
SELECT import_cost_czk, export_revenue_czk, net_cost_czk,
green_bonus_czk, total_balance_czk
green_bonus_czk, total_balance_czk,
grid_import_cashflow_czk, grid_export_revenue_czk
FROM ems.vw_economics_daily
WHERE site_id = $1 AND day_local = $2
""",
@@ -280,14 +292,17 @@ async def lock_day(
"""
INSERT INTO ems.audit_day_lock
(site_id, day_local, import_cost_czk, export_revenue_czk,
net_cost_czk, green_bonus_czk, total_balance_czk)
VALUES ($1, $2, $3, $4, $5, $6, $7)
net_cost_czk, green_bonus_czk, total_balance_czk,
grid_import_cashflow_czk, grid_export_revenue_czk)
VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9)
ON CONFLICT (site_id, day_local) DO UPDATE SET
import_cost_czk = EXCLUDED.import_cost_czk,
export_revenue_czk = EXCLUDED.export_revenue_czk,
net_cost_czk = EXCLUDED.net_cost_czk,
green_bonus_czk = EXCLUDED.green_bonus_czk,
total_balance_czk = EXCLUDED.total_balance_czk,
grid_import_cashflow_czk = EXCLUDED.grid_import_cashflow_czk,
grid_export_revenue_czk = EXCLUDED.grid_export_revenue_czk,
locked_at = now()
""",
site_id,
@@ -297,6 +312,8 @@ async def lock_day(
row["net_cost_czk"],
row["green_bonus_czk"],
row["total_balance_czk"],
row["grid_import_cashflow_czk"],
row["grid_export_revenue_czk"],
)
return LockResponse(locked=True, day=day)
@@ -343,7 +360,8 @@ async def get_monthly_chart(
rows = await conn.fetch(
"""
SELECT day_local, total_balance_czk
SELECT day_local, total_balance_czk, net_cost_czk,
green_bonus_czk, grid_import_cashflow_czk, grid_export_revenue_czk
FROM ems.vw_economics_daily
WHERE site_id = $1
AND day_local >= $2
@@ -357,7 +375,8 @@ async def get_monthly_chart(
lock_rows = await conn.fetch(
"""
SELECT day_local, total_balance_czk
SELECT day_local, total_balance_czk, net_cost_czk,
green_bonus_czk, grid_import_cashflow_czk, grid_export_revenue_czk
FROM ems.audit_day_lock
WHERE site_id = $1
AND day_local >= $2
@@ -367,19 +386,31 @@ async def get_monthly_chart(
month_start,
month_end,
)
locks = {r["day_local"]: _num(r["total_balance_czk"]) for r in lock_rows}
locks = {r["day_local"]: r for r in lock_rows}
points: list[ChartDayPoint] = []
cumulative = 0.0
cum_balance = 0.0
cum_grid = 0.0
for r in rows:
d = r["day_local"]
balance = locks.get(d, _num(r["total_balance_czk"]))
cumulative += balance
src = locks.get(d, r)
balance = _num(src["total_balance_czk"])
grid_balance = -_num(src["net_cost_czk"])
green_bonus = _num(src["green_bonus_czk"])
import_cost = _num(_safe_get(src, "grid_import_cashflow_czk", r["grid_import_cashflow_czk"]))
export_revenue = _num(_safe_get(src, "grid_export_revenue_czk", r["grid_export_revenue_czk"]))
cum_balance += balance
cum_grid += grid_balance
points.append(
ChartDayPoint(
day=d,
daily_balance_czk=round(balance, 2),
cumulative_balance_czk=round(cumulative, 2),
daily_grid_balance_czk=round(grid_balance, 2),
daily_green_bonus_czk=round(green_bonus, 2),
daily_import_cost_czk=round(import_cost, 2),
daily_export_revenue_czk=round(export_revenue, 2),
cumulative_balance_czk=round(cum_balance, 2),
cumulative_grid_balance_czk=round(cum_grid, 2),
)
)

15
backend/services/telemetry_collector.py
View File

@@ -22,6 +22,10 @@ DEYE_REG_BATTERY_POWER_FLOW = 590
DEYE_REG_GRID_TOTAL_POWER = 625
DEYE_REG_GEN_PORT_POWER = 667
DEYE_REG_LOAD_TOTAL_POWER = 653
DEYE_REG_GRID_IMPORT_TOTAL_LO = 522
DEYE_REG_GRID_IMPORT_TOTAL_HI = 523
DEYE_REG_GRID_EXPORT_TOTAL_LO = 524
DEYE_REG_GRID_EXPORT_TOTAL_HI = 525
DEYE_REG_PV1_POWER = 672
DEYE_REG_PV2_POWER = 673
@@ -67,7 +71,12 @@ async def poll_inverter(site_id: int, db: asyncpg.Connection) -> None:
pv1_power = await mb.read_register_signed(DEYE_REG_PV1_POWER)
pv2_power = await mb.read_register_signed(DEYE_REG_PV2_POWER)
gen_port_power = await mb.read_register_signed(DEYE_REG_GEN_PORT_POWER)
grid_energy_regs = await mb.read_holding_registers(
DEYE_REG_GRID_IMPORT_TOTAL_LO, 4
)
pv_power_w = aggregate_pv_production_w(pv1_power, pv2_power, gen_port_power)
grid_import_total_wh = (grid_energy_regs[1] << 16 | grid_energy_regs[0]) * 100
grid_export_total_wh = (grid_energy_regs[3] << 16 | grid_energy_regs[2]) * 100
logger.debug("inverter:%s Deye run_state raw=%s", code, run_state)
@@ -79,6 +88,7 @@ async def poll_inverter(site_id: int, db: asyncpg.Connection) -> None:
battery_soc_percent, battery_power_w,
batt_charge_today_wh, batt_discharge_today_wh,
grid_power_w, load_power_w,
grid_import_total_wh, grid_export_total_wh,
run_state
)
VALUES (
@@ -87,7 +97,8 @@ async def poll_inverter(site_id: int, db: asyncpg.Connection) -> None:
$8, $9,
$10, $11,
$12, $13,
$14
$14, $15,
$16
)
ON CONFLICT (inverter_id, measured_at) DO NOTHING
""",
@@ -104,6 +115,8 @@ async def poll_inverter(site_id: int, db: asyncpg.Connection) -> None:
batt_discharge_today,
grid_power,
load_power,
grid_import_total_wh,
grid_export_total_wh,
run_state,
)
inv_temp: float | None = None

38
db/migration/V040__energy_wh_columns.sql Normal file
View File

@@ -0,0 +1,38 @@
-- =============================================================
-- V040 Energy Wh columns
-- Přidává kumulativní čítače grid energie do telemetrie
-- a per-slot Wh sloupce do audit_interval pro přesné
-- import/export měření (Deye reg 522-525 + per-minute fallback).
-- =============================================================
-- 1. telemetry_inverter: kumulativní Deye lifetime čítače
ALTER TABLE ems.telemetry_inverter
ADD COLUMN IF NOT EXISTS grid_import_total_wh BIGINT,
ADD COLUMN IF NOT EXISTS grid_export_total_wh BIGINT;
COMMENT ON COLUMN ems.telemetry_inverter.grid_import_total_wh IS
'Kumulativní import ze sítě (Wh) z Deye reg 522+523 (32-bit × 0.1 kWh). Lifetime čítač, monotónně rostoucí.';
COMMENT ON COLUMN ems.telemetry_inverter.grid_export_total_wh IS
'Kumulativní export do sítě (Wh) z Deye reg 524+525 (32-bit × 0.1 kWh). Lifetime čítač, monotónně rostoucí.';
-- 2. audit_interval: 6 základních energetických veličin (Wh za 15min slot)
ALTER TABLE ems.audit_interval
ADD COLUMN IF NOT EXISTS actual_grid_import_wh NUMERIC(10,1),
ADD COLUMN IF NOT EXISTS actual_grid_export_wh NUMERIC(10,1),
ADD COLUMN IF NOT EXISTS actual_batt_charge_wh NUMERIC(10,1),
ADD COLUMN IF NOT EXISTS actual_batt_discharge_wh NUMERIC(10,1),
ADD COLUMN IF NOT EXISTS actual_pv_production_wh NUMERIC(10,1),
ADD COLUMN IF NOT EXISTS actual_load_consumption_wh NUMERIC(10,1);
COMMENT ON COLUMN ems.audit_interval.actual_grid_import_wh IS
'Import ze sítě za 15min slot (Wh). Primárně z delta Deye total counterů (reg 522+523), fallback per-minutový split z grid_power_w.';
COMMENT ON COLUMN ems.audit_interval.actual_grid_export_wh IS
'Export do sítě za 15min slot (Wh). Primárně z delta Deye total counterů (reg 524+525), fallback per-minutový split z grid_power_w.';
COMMENT ON COLUMN ems.audit_interval.actual_batt_charge_wh IS
'Nabití baterie za 15min slot (Wh). Per-minutový split z battery_power_w (záporné = nabíjení).';
COMMENT ON COLUMN ems.audit_interval.actual_batt_discharge_wh IS
'Vybití baterie za 15min slot (Wh). Per-minutový split z battery_power_w (kladné = vybíjení).';
COMMENT ON COLUMN ems.audit_interval.actual_pv_production_wh IS
'FVE výroba za 15min slot (Wh). SUM(pv_power_w) / 60 z minutových vzorků.';
COMMENT ON COLUMN ems.audit_interval.actual_load_consumption_wh IS
'Celková spotřeba za 15min slot (Wh). SUM(load_power_w) / 60 z minutových vzorků.';

13
db/migration/V041__audit_day_lock_grid_direction.sql Normal file
View File

@@ -0,0 +1,13 @@
-- =============================================================
-- V041 audit_day_lock: směrové cashflow sloupce
-- Snapshot pro zamknuté dny rozšířen o cashflow podle směru energie.
-- =============================================================
ALTER TABLE ems.audit_day_lock
ADD COLUMN IF NOT EXISTS grid_import_cashflow_czk NUMERIC(12,2),
ADD COLUMN IF NOT EXISTS grid_export_revenue_czk NUMERIC(12,2);
COMMENT ON COLUMN ems.audit_day_lock.grid_import_cashflow_czk IS
'Snapshot: celková cena za import ze sítě v Kč (může být záporná při záporné spotové ceně).';
COMMENT ON COLUMN ems.audit_day_lock.grid_export_revenue_czk IS
'Snapshot: celkový příjem z exportu do sítě v Kč.';

97
db/routines/R__fn_fill_audit_interval.sql
View File

@@ -29,6 +29,22 @@ DECLARE
v_pv_b_production_wh NUMERIC;
v_array_prod_wh NUMERIC;
r_bonus RECORD;
-- per-minute Wh veličiny
v_grid_import_wh NUMERIC;
v_grid_export_wh NUMERIC;
v_batt_charge_wh NUMERIC;
v_batt_discharge_wh NUMERIC;
v_pv_production_wh NUMERIC;
v_load_consumption_wh NUMERIC;
-- Deye counter delta
v_counter_import_first BIGINT;
v_counter_import_last BIGINT;
v_counter_export_first BIGINT;
v_counter_export_last BIGINT;
v_delta_import NUMERIC;
v_delta_export NUMERIC;
BEGIN
-- Najít aktivní plán pro tento interval
SELECT pi.* INTO v_plan
@@ -42,24 +58,58 @@ BEGIN
v_run_id := v_plan.run_id;
-- Agregovat telemetrii střídače (průměr za 15min; agregace bez GROUP BY vrací vždy 1 řádek)
-- Agregovat telemetrii střídače: průměry (pro zpětnou kompatibilitu) + per-minute split pro Wh
SELECT
AVG(pv_power_w)::INT,
AVG(battery_power_w)::INT,
AVG(grid_power_w)::INT,
AVG(load_power_w)::INT,
LAST(battery_soc_percent, measured_at)
LAST(battery_soc_percent, measured_at),
-- Per-minute split: každý vzorek × 1/60 h = Wh
ROUND(SUM(GREATEST(grid_power_w, 0))::NUMERIC / 60, 1),
ROUND(SUM(ABS(LEAST(grid_power_w, 0)))::NUMERIC / 60, 1),
ROUND(SUM(ABS(LEAST(battery_power_w, 0)))::NUMERIC / 60, 1),
ROUND(SUM(GREATEST(battery_power_w, 0))::NUMERIC / 60, 1),
ROUND(SUM(GREATEST(pv_power_w, 0))::NUMERIC / 60, 1),
ROUND(SUM(GREATEST(load_power_w, 0))::NUMERIC / 60, 1),
-- Deye total energy counter delta
FIRST(grid_import_total_wh, measured_at),
LAST(grid_import_total_wh, measured_at),
FIRST(grid_export_total_wh, measured_at),
LAST(grid_export_total_wh, measured_at)
INTO
v_avg_pv_power_w,
v_avg_battery_power_w,
v_avg_grid_power_w,
v_avg_load_power_w,
v_last_soc
v_last_soc,
v_grid_import_wh,
v_grid_export_wh,
v_batt_charge_wh,
v_batt_discharge_wh,
v_pv_production_wh,
v_load_consumption_wh,
v_counter_import_first,
v_counter_import_last,
v_counter_export_first,
v_counter_export_last
FROM ems.telemetry_inverter
WHERE site_id = p_site_id
AND measured_at >= p_interval_start
AND measured_at < v_interval_end;
-- Deye counter delta (primární zdroj pro grid import/export, pokud jsou čítače dostupné)
IF v_counter_import_first IS NOT NULL AND v_counter_import_last IS NOT NULL
AND v_counter_import_last >= v_counter_import_first THEN
v_delta_import := v_counter_import_last - v_counter_import_first;
v_grid_import_wh := v_delta_import;
END IF;
IF v_counter_export_first IS NOT NULL AND v_counter_export_last IS NOT NULL
AND v_counter_export_last >= v_counter_export_first THEN
v_delta_export := v_counter_export_last - v_counter_export_first;
v_grid_export_wh := v_delta_export;
END IF;
-- Agregovat EV nabíječky (součet průměrů po charger_id)
SELECT COALESCE(SUM(avg_power), 0)::INT
INTO v_sum_ev_power_w
@@ -84,12 +134,10 @@ BEGIN
v_buy_price := ems.fn_effective_buy_price(p_site_id, p_interval_start);
v_sell_price := ems.fn_effective_sell_price(p_site_id, p_interval_start);
-- Skutečné náklady (kladný grid = nákup, záporný = prodej)
IF v_avg_grid_power_w IS NOT NULL THEN
v_actual_cost := (v_avg_grid_power_w::NUMERIC / 1000.0 / 4.0)
* CASE WHEN v_avg_grid_power_w >= 0
THEN COALESCE(v_buy_price, 0)
ELSE COALESCE(v_sell_price, 0) END;
-- Skutečné náklady per-direction (import × buy - export × sell)
IF v_grid_import_wh IS NOT NULL OR v_grid_export_wh IS NOT NULL THEN
v_actual_cost := COALESCE(v_grid_import_wh, 0) / 1000.0 * COALESCE(v_buy_price, 0)
- COALESCE(v_grid_export_wh, 0) / 1000.0 * COALESCE(v_sell_price, 0);
END IF;
-- Zelený bonus: výroba bonusových polí z reálné telemetrie (Wh = průměr W × 0,25 h)
@@ -122,7 +170,6 @@ BEGIN
AND ti.measured_at < v_interval_end;
END IF;
-- Fallback na forecast pokud telemetrie není k dispozici
IF v_array_prod_wh IS NULL THEN
SELECT fpi.power_w * 0.25
INTO v_array_prod_wh
@@ -160,7 +207,13 @@ BEGIN
pv_b_production_wh,
green_bonus_czk,
deviation_grid_w,
deviation_cost_czk
deviation_cost_czk,
actual_grid_import_wh,
actual_grid_export_wh,
actual_batt_charge_wh,
actual_batt_discharge_wh,
actual_pv_production_wh,
actual_load_consumption_wh
) VALUES (
p_site_id, p_interval_start, v_run_id,
v_avg_pv_power_w,
@@ -178,7 +231,13 @@ BEGIN
ELSE NULL END,
CASE WHEN v_plan.run_id IS NOT NULL
THEN ROUND(v_actual_cost - COALESCE(v_plan.expected_cost_czk, 0), 4)
ELSE NULL END
ELSE NULL END,
v_grid_import_wh,
v_grid_export_wh,
v_batt_charge_wh,
v_batt_discharge_wh,
v_pv_production_wh,
v_load_consumption_wh
)
ON CONFLICT (site_id, interval_start) DO UPDATE SET
planning_run_id = EXCLUDED.planning_run_id,
@@ -193,15 +252,23 @@ BEGIN
pv_b_production_wh = EXCLUDED.pv_b_production_wh,
green_bonus_czk = EXCLUDED.green_bonus_czk,
deviation_grid_w = EXCLUDED.deviation_grid_w,
deviation_cost_czk = EXCLUDED.deviation_cost_czk;
deviation_cost_czk = EXCLUDED.deviation_cost_czk,
actual_grid_import_wh = EXCLUDED.actual_grid_import_wh,
actual_grid_export_wh = EXCLUDED.actual_grid_export_wh,
actual_batt_charge_wh = EXCLUDED.actual_batt_charge_wh,
actual_batt_discharge_wh = EXCLUDED.actual_batt_discharge_wh,
actual_pv_production_wh = EXCLUDED.actual_pv_production_wh,
actual_load_consumption_wh = EXCLUDED.actual_load_consumption_wh;
END;
$$;
COMMENT ON FUNCTION ems.fn_fill_audit_interval(INT, TIMESTAMPTZ) IS
'Naplní nebo aktualizuje jeden řádek v audit_interval pro danou lokalitu a 15min interval.
Agreguje průměry z telemetrie (střídač, EV, TČ), porovná se skutečným plánem a spočítá odchylky.
Zelený bonus: součet přes pole s green_bonus_czk_kwh; výroba primárně z reálné telemetrie
(dle asset_pv_array.telemetry_source), fallback na forecast_pv_interval pokud telemetrie chybí.
Nově: per-minutový split pro 6 energetických veličin (import/export/batt/PV/load Wh);
grid import/export primárně z delta Deye total counterů (reg 522-525), fallback per-minute.
actual_cost_czk = per-direction (import_wh × buy - export_wh × sell).
Zelený bonus: součet přes pole s green_bonus_czk_kwh.
Volat každých 15 minut pro interval který právě skončil.';
-- ============================================================

54
db/views/R__vw_site_effective_price_economics.sql
View File

@@ -9,14 +9,27 @@ CREATE OR REPLACE VIEW ems.vw_economics_interval AS
SELECT
ai.site_id,
ai.interval_start,
ROUND(GREATEST(ai.actual_grid_power_w, 0)::NUMERIC / 4000, 4) AS import_kwh,
ROUND(ABS(LEAST(ai.actual_grid_power_w, 0))::NUMERIC / 4000, 4) AS export_kwh,
CASE WHEN ai.actual_grid_power_w >= 0
THEN ROUND((ai.actual_grid_power_w::NUMERIC / 4000)
* COALESCE(ep.effective_buy_price_czk_kwh, 0), 4)
ELSE ROUND((ai.actual_grid_power_w::NUMERIC / 4000)
* COALESCE(ep.effective_sell_price_czk_kwh, 0), 4)
END AS dynamic_cost_czk,
-- Wh-based kWh (per-direction, zachytí bidirectional flow)
ROUND(COALESCE(ai.actual_grid_import_wh, GREATEST(ai.actual_grid_power_w, 0)::NUMERIC / 4) / 1000, 4)
AS import_kwh,
ROUND(COALESCE(ai.actual_grid_export_wh, ABS(LEAST(ai.actual_grid_power_w, 0))::NUMERIC / 4) / 1000, 4)
AS export_kwh,
-- Směrové cashflow: kolik Kč za import ze sítě / kolik Kč za export do sítě
ROUND(
COALESCE(ai.actual_grid_import_wh, GREATEST(ai.actual_grid_power_w, 0)::NUMERIC / 4)
/ 1000.0 * COALESCE(ep.effective_buy_price_czk_kwh, 0), 4
) AS grid_import_cashflow_czk,
ROUND(
COALESCE(ai.actual_grid_export_wh, ABS(LEAST(ai.actual_grid_power_w, 0))::NUMERIC / 4)
/ 1000.0 * COALESCE(ep.effective_sell_price_czk_kwh, 0), 4
) AS grid_export_revenue_czk,
-- Net cost (zpětná kompatibilita): import_cashflow - export_revenue
ROUND(
COALESCE(ai.actual_grid_import_wh, GREATEST(ai.actual_grid_power_w, 0)::NUMERIC / 4)
/ 1000.0 * COALESCE(ep.effective_buy_price_czk_kwh, 0)
- COALESCE(ai.actual_grid_export_wh, ABS(LEAST(ai.actual_grid_power_w, 0))::NUMERIC / 4)
/ 1000.0 * COALESCE(ep.effective_sell_price_czk_kwh, 0), 4
) AS dynamic_cost_czk,
ai.actual_cost_czk AS stored_cost_czk,
ai.green_bonus_czk,
pi.expected_cost_czk AS planned_cost_czk,
@@ -31,7 +44,13 @@ SELECT
ai.actual_ev_power_w,
ai.actual_heat_pump_power_w,
ai.actual_battery_power_w,
ai.actual_battery_soc_pct
ai.actual_battery_soc_pct,
ai.actual_grid_import_wh,
ai.actual_grid_export_wh,
ai.actual_batt_charge_wh,
ai.actual_batt_discharge_wh,
ai.actual_pv_production_wh,
ai.actual_load_consumption_wh
FROM ems.audit_interval ai
LEFT JOIN ems.vw_site_effective_price ep
ON ep.site_id = ai.site_id AND ep.interval_start = ai.interval_start
@@ -39,7 +58,10 @@ LEFT JOIN ems.planning_interval pi
ON pi.run_id = ai.planning_run_id AND pi.interval_start = ai.interval_start;
COMMENT ON VIEW ems.vw_economics_interval IS
'Dynamické ekonomické vyhodnocení per 15min slot (závisí na vw_site_effective_price).';
'Dynamické ekonomické vyhodnocení per 15min slot.
import/export kWh primárně z per-direction Wh sloupců audit_interval (Deye counter / per-minute split),
fallback na průměrný výkon pro zpětnou kompatibilitu se starými daty.
grid_import_cashflow_czk / grid_export_revenue_czk = směrové cashflow podle skutečného toku energie.';
CREATE OR REPLACE VIEW ems.vw_economics_daily AS
SELECT
@@ -53,7 +75,11 @@ SELECT
ROUND(SUM(GREATEST(actual_ev_power_w, 0)::NUMERIC / 4000), 3) AS ev_kwh,
ROUND(SUM(GREATEST(actual_heat_pump_power_w, 0)::NUMERIC / 4000), 3) AS hp_kwh,
ROUND(SUM(GREATEST(actual_pv_power_w, 0)::NUMERIC / 4000)
- SUM(export_kwh), 3) AS self_consumption_kwh,
- SUM(export_kwh), 3) AS pv_self_consumption_kwh,
-- Směrové cashflow (podle směru energie, ne znaménka peněz)
ROUND(SUM(grid_import_cashflow_czk), 2) AS grid_import_cashflow_czk,
ROUND(SUM(grid_export_revenue_czk), 2) AS grid_export_revenue_czk,
-- Staré sloupce (podle znaménka peněz zpětná kompatibilita)
ROUND(SUM(CASE WHEN dynamic_cost_czk > 0
THEN dynamic_cost_czk ELSE 0 END), 2) AS import_cost_czk,
ROUND(SUM(CASE WHEN dynamic_cost_czk < 0
@@ -63,8 +89,7 @@ SELECT
ROUND(-SUM(dynamic_cost_czk)
+ COALESCE(SUM(green_bonus_czk), 0), 2) AS total_balance_czk,
ROUND(SUM(planned_cost_czk), 2) AS planned_net_cost_czk,
ROUND(-COALESCE(SUM(planned_cost_czk), 0)
+ COALESCE(SUM(green_bonus_czk), 0), 2) AS planned_balance_czk,
ROUND(-COALESCE(SUM(planned_cost_czk), 0), 2) AS planned_balance_czk,
ROUND(SUM(dynamic_cost_czk)
- COALESCE(SUM(planned_cost_czk), 0), 2) AS deviation_cost_czk
FROM ems.vw_economics_interval
@@ -72,4 +97,5 @@ GROUP BY site_id,
date_trunc('day', interval_start AT TIME ZONE 'Europe/Prague')::date;
COMMENT ON VIEW ems.vw_economics_daily IS
'Denní souhrn ekonomiky (závisí na vw_economics_interval).';
'Denní souhrn ekonomiky. planned_balance_czk = jen síťové náklady (bez zeleného bonusu).
grid_import_cashflow_czk / grid_export_revenue_czk = směrové cashflow podle skutečného toku energie.';

128
frontend/src/components/charts/EconomicsChart.tsx
View File

@@ -3,6 +3,7 @@ import {
CartesianGrid,
Cell,
ComposedChart,
Legend,
Line,
ReferenceLine,
ResponsiveContainer,
@@ -14,11 +15,14 @@ import type { ChartDayPoint } from '../../types/economics'
type Props = {
points: ChartDayPoint[]
hasGreenBonus: boolean
}
const GREEN = '#22c55e'
const RED = '#ef4444'
const BLUE = '#3b82f6'
const AMBER = '#f59e0b'
const SLATE = '#64748b'
function formatDay(iso: string): string {
const d = new Date(iso + 'T00:00:00')
@@ -29,40 +33,66 @@ type PayloadEntry = {
name?: string
value?: number
color?: string
dataKey?: string
}
function CustomTooltip({
active,
payload,
label,
hasGreenBonus,
}: {
active?: boolean
payload?: PayloadEntry[]
label?: string
hasGreenBonus: boolean
}) {
if (!active || !payload?.length || !label) return null
const balance = payload.find((p) => p.name === 'daily_balance_czk')
const cumulative = payload.find((p) => p.name === 'cumulative_balance_czk')
const gridBalance = payload.find((p) => p.dataKey === 'daily_grid_balance_czk')
const bonus = payload.find((p) => p.dataKey === 'daily_green_bonus_czk')
const cumBalance = payload.find((p) => p.dataKey === 'cumulative_balance_czk')
const cumGrid = payload.find((p) => p.dataKey === 'cumulative_grid_balance_czk')
const importCost = payload.find((p) => p.dataKey === 'daily_import_cost_czk')
const exportRev = payload.find((p) => p.dataKey === 'daily_export_revenue_czk')
const gridVal = gridBalance?.value ?? 0
const bonusVal = bonus?.value ?? 0
const total = gridVal + bonusVal
const fmtCzk = (v: number) => `${v >= 0 ? '+' : ''}${v.toFixed(2)}`
return (
<div className="rounded-lg border border-slate-700 bg-slate-800 px-3 py-2 text-xs shadow-lg">
<p className="mb-1 font-medium text-slate-200">{label}</p>
{balance && (
<p style={{ color: (balance.value ?? 0) >= 0 ? GREEN : RED }}>
Den: {(balance.value ?? 0) >= 0 ? '+' : ''}
{(balance.value ?? 0).toFixed(2)}
<p style={{ color: gridVal >= 0 ? GREEN : RED }}>Síť: {fmtCzk(gridVal)}</p>
{hasGreenBonus && <p style={{ color: AMBER }}>Bonus: {fmtCzk(bonusVal)}</p>}
<p className="mt-1 border-t border-slate-700 pt-1 font-semibold" style={{ color: total >= 0 ? GREEN : RED }}>
Celkem: {fmtCzk(total)}
</p>
{importCost && (
<p className="mt-1 text-slate-400">
Nákup ze sítě: {(importCost.value ?? 0).toFixed(2)}
</p>
)}
{cumulative && (
<p style={{ color: BLUE }}>
Kumulativ: {(cumulative.value ?? 0) >= 0 ? '+' : ''}
{(cumulative.value ?? 0).toFixed(2)}
{exportRev && (
<p className="text-slate-400">Prodej do sítě: {(exportRev.value ?? 0).toFixed(2)} </p>
)}
{cumBalance && (
<p className="mt-1 text-slate-400" style={{ color: BLUE }}>
Kumulativ: {fmtCzk(cumBalance.value ?? 0)}
</p>
)}
{cumGrid && (
<p className="text-slate-400" style={{ color: SLATE }}>
Kumulativ síť: {fmtCzk(cumGrid.value ?? 0)}
</p>
)}
</div>
)
}
export function EconomicsChart({ points }: Props) {
export function EconomicsChart({ points, hasGreenBonus }: Props) {
if (points.length === 0) {
return (
<div className="flex h-64 items-center justify-center text-sm text-slate-500">
@@ -77,7 +107,7 @@ export function EconomicsChart({ points }: Props) {
}))
return (
<ResponsiveContainer width="100%" height={320}>
<ResponsiveContainer width="100%" height={380}>
<ComposedChart data={data} margin={{ top: 8, right: 16, bottom: 4, left: 0 }}>
<CartesianGrid strokeDasharray="3 3" stroke="#334155" />
<XAxis dataKey="label" tick={{ fontSize: 11, fill: '#94a3b8' }} />
@@ -102,13 +132,72 @@ export function EconomicsChart({ points }: Props) {
style: { fontSize: 11, fill: BLUE },
}}
/>
<Tooltip content={<CustomTooltip />} />
<Tooltip content={<CustomTooltip hasGreenBonus={hasGreenBonus} />} />
<Legend
wrapperStyle={{ fontSize: 11 }}
formatter={(value: string) => {
const labels: Record<string, string> = {
daily_grid_balance_czk: 'Bilance síť',
daily_green_bonus_czk: 'Zelený bonus',
daily_import_cost_czk: 'Nákup ze sítě',
daily_export_revenue_czk: 'Prodej do sítě',
cumulative_balance_czk: 'Kumulativ vč. bonusu',
cumulative_grid_balance_czk: 'Kumulativ síť',
}
return labels[value] ?? value
}}
/>
<ReferenceLine yAxisId="left" y={0} stroke="#475569" strokeDasharray="2 2" />
<Bar yAxisId="left" dataKey="daily_balance_czk" radius={[3, 3, 0, 0]} maxBarSize={32}>
{/* Stacked bars: bottom = grid balance, top = green bonus */}
<Bar
yAxisId="left"
dataKey="daily_grid_balance_czk"
stackId="balance"
maxBarSize={28}
radius={hasGreenBonus ? undefined : [3, 3, 0, 0]}
>
{data.map((entry, idx) => (
<Cell key={idx} fill={entry.daily_balance_czk >= 0 ? GREEN : RED} fillOpacity={0.8} />
<Cell
key={idx}
fill={entry.daily_grid_balance_czk >= 0 ? GREEN : RED}
fillOpacity={0.7}
/>
))}
</Bar>
{hasGreenBonus && (
<Bar
yAxisId="left"
dataKey="daily_green_bonus_czk"
stackId="balance"
fill={AMBER}
fillOpacity={0.8}
maxBarSize={28}
radius={[3, 3, 0, 0]}
/>
)}
{/* Lines: import cost / export revenue */}
<Line
yAxisId="left"
type="monotone"
dataKey="daily_import_cost_czk"
stroke={RED}
strokeWidth={1.5}
strokeDasharray="4 2"
dot={false}
/>
<Line
yAxisId="left"
type="monotone"
dataKey="daily_export_revenue_czk"
stroke={GREEN}
strokeWidth={1.5}
strokeDasharray="4 2"
dot={false}
/>
{/* Cumulative lines (right axis) */}
<Line
yAxisId="right"
type="monotone"
@@ -117,6 +206,15 @@ export function EconomicsChart({ points }: Props) {
strokeWidth={2}
dot={{ r: 3, fill: BLUE }}
/>
<Line
yAxisId="right"
type="monotone"
dataKey="cumulative_grid_balance_czk"
stroke={SLATE}
strokeWidth={1.5}
strokeDasharray="5 3"
dot={false}
/>
</ComposedChart>
</ResponsiveContainer>
)

55
frontend/src/pages/Economics.tsx
View File

@@ -143,6 +143,7 @@ function DailyRow({
onToggle: () => void
onLockToggle: () => void
}) {
const colCount = hasGreenBonus ? 13 : 12
return (
<>
<tr
@@ -157,9 +158,17 @@ function DailyRow({
</td>
<td className="px-3 py-2 text-right text-sm">{kwh(row.import_kwh)}</td>
<td className="px-3 py-2 text-right text-sm">{kwh(row.export_kwh)}</td>
<td className="px-3 py-2 text-right text-sm text-slate-400">{kwh(row.self_consumption_kwh)}</td>
<td className="px-3 py-2 text-right text-sm text-red-400">{row.import_cost_czk.toFixed(2)}</td>
<td className="px-3 py-2 text-right text-sm text-green-400">{row.export_revenue_czk.toFixed(2)}</td>
<td className="px-3 py-2 text-right text-sm text-slate-400">{kwh(row.pv_self_consumption_kwh)}</td>
<td className="px-3 py-2 text-right text-sm text-red-400">{row.grid_import_cashflow_czk.toFixed(2)}</td>
<td className="px-3 py-2 text-right text-sm text-green-400">{row.grid_export_revenue_czk.toFixed(2)}</td>
<td className="px-3 py-2 text-right text-sm text-red-300">{row.import_cost_czk.toFixed(2)}</td>
<td className="px-3 py-2 text-right text-sm text-green-300">{row.export_revenue_czk.toFixed(2)}</td>
<td className="px-3 py-2 text-right text-sm text-slate-400">
{row.planned_balance_czk != null ? czk(row.planned_balance_czk) : ''}
</td>
<td className={`px-3 py-2 text-right text-sm ${row.deviation_cost_czk != null ? balanceColor(-row.deviation_cost_czk) : ''}`}>
{row.deviation_cost_czk != null ? czk(row.deviation_cost_czk) : ''}
</td>
{hasGreenBonus && (
<td className="px-3 py-2 text-right text-sm text-amber-400">
{row.green_bonus_czk > 0 ? row.green_bonus_czk.toFixed(2) : ''}
@@ -168,12 +177,6 @@ function DailyRow({
<td className={`px-3 py-2 text-right text-sm font-semibold ${balanceColor(row.total_balance_czk)}`}>
{czk(row.total_balance_czk)}
</td>
<td className="px-3 py-2 text-right text-sm text-slate-400">
{row.planned_balance_czk != null ? czk(row.planned_balance_czk) : ''}
</td>
<td className={`px-3 py-2 text-right text-sm ${row.deviation_cost_czk != null ? balanceColor(-row.deviation_cost_czk) : ''}`}>
{row.deviation_cost_czk != null ? czk(row.deviation_cost_czk) : ''}
</td>
<td className="px-2 py-2 text-center">
<button
onClick={(e) => {
@@ -193,7 +196,7 @@ function DailyRow({
</tr>
{expanded && (
<tr>
<td colSpan={hasGreenBonus ? 11 : 10} className="bg-slate-900/50 px-4 py-2">
<td colSpan={colCount} className="bg-slate-900/50 px-4 py-2">
<IntervalDetail siteId={siteId} day={row.day} hasGreenBonus={hasGreenBonus} />
</td>
</tr>
@@ -217,6 +220,8 @@ export default function Economics() {
return {
import_cost: days.reduce((s, d) => s + d.import_cost_czk, 0),
export_revenue: days.reduce((s, d) => s + d.export_revenue_czk, 0),
grid_import_cashflow: days.reduce((s, d) => s + d.grid_import_cashflow_czk, 0),
grid_export_revenue: days.reduce((s, d) => s + d.grid_export_revenue_czk, 0),
green_bonus: days.reduce((s, d) => s + d.green_bonus_czk, 0),
total_balance: days.reduce((s, d) => s + d.total_balance_czk, 0),
}
@@ -277,14 +282,22 @@ export default function Economics() {
{/* Summary cards */}
{summary && (
<div className="grid grid-cols-2 gap-3 sm:grid-cols-4">
<div className="grid grid-cols-2 gap-3 sm:grid-cols-3 lg:grid-cols-6">
<div className="rounded-xl border border-slate-800 bg-slate-900 p-4">
<p className="text-xs text-slate-400">Nákup celkem</p>
<p className="mt-1 text-lg font-semibold text-red-400">{summary.import_cost.toFixed(2)} </p>
<p className="text-xs text-slate-400">Nákup ze sítě</p>
<p className="mt-1 text-lg font-semibold text-red-400">{summary.grid_import_cashflow.toFixed(2)} </p>
</div>
<div className="rounded-xl border border-slate-800 bg-slate-900 p-4">
<p className="text-xs text-slate-400">Prodej celkem</p>
<p className="mt-1 text-lg font-semibold text-green-400">{summary.export_revenue.toFixed(2)} </p>
<p className="text-xs text-slate-400">Prodej do sítě</p>
<p className="mt-1 text-lg font-semibold text-green-400">{summary.grid_export_revenue.toFixed(2)} </p>
</div>
<div className="rounded-xl border border-slate-800 bg-slate-900 p-4">
<p className="text-xs text-slate-400">Náklad celkem</p>
<p className="mt-1 text-lg font-semibold text-red-300">{summary.import_cost.toFixed(2)} </p>
</div>
<div className="rounded-xl border border-slate-800 bg-slate-900 p-4">
<p className="text-xs text-slate-400">Příjem celkem</p>
<p className="mt-1 text-lg font-semibold text-green-300">{summary.export_revenue.toFixed(2)} </p>
</div>
{hasGreenBonus && (
<div className="rounded-xl border border-slate-800 bg-slate-900 p-4">
@@ -304,9 +317,9 @@ export default function Economics() {
{/* Chart */}
<div className="rounded-xl border border-slate-800 bg-slate-900 p-4">
<h2 className="mb-3 text-sm font-medium text-slate-300">
Denní bilance + kumulativ od 1. v měsíci
Denní bilance (síť + bonus) a kumulativ
</h2>
<EconomicsChart points={points} />
<EconomicsChart points={points} hasGreenBonus={hasGreenBonus} />
</div>
{/* Daily table */}
@@ -348,13 +361,15 @@ export default function Economics() {
<th className="px-3 py-2 text-left">Den</th>
<th className="px-3 py-2 text-right">Import kWh</th>
<th className="px-3 py-2 text-right">Export kWh</th>
<th className="px-3 py-2 text-right">Vl. spotřeba</th>
<th className="px-3 py-2 text-right">FVE vl. spot.</th>
<th className="px-3 py-2 text-right">Nákup ze sítě</th>
<th className="px-3 py-2 text-right">Prodej do sítě</th>
<th className="px-3 py-2 text-right">Náklad </th>
<th className="px-3 py-2 text-right">Příjem </th>
{hasGreenBonus && <th className="px-3 py-2 text-right">Bonus </th>}
<th className="px-3 py-2 text-right">Bilance </th>
<th className="px-3 py-2 text-right">Plán </th>
<th className="px-3 py-2 text-right">Odchylka </th>
{hasGreenBonus && <th className="px-3 py-2 text-right">Bonus </th>}
<th className="px-3 py-2 text-right">Bilance </th>
<th className="w-10 px-2 py-2 text-center" />
</tr>
</thead>

11
frontend/src/types/economics.ts
View File

@@ -5,11 +5,13 @@ export type DailyEconomics = {
export_kwh: number
pv_kwh: number
load_kwh: number
self_consumption_kwh: number
pv_self_consumption_kwh: number
ev_kwh: number
hp_kwh: number
import_cost_czk: number
export_revenue_czk: number
grid_import_cashflow_czk: number
grid_export_revenue_czk: number
net_cost_czk: number
green_bonus_czk: number
total_balance_czk: number
@@ -28,6 +30,8 @@ export type IntervalEconomics = {
import_kwh: number
export_kwh: number
dynamic_cost_czk: number | null
grid_import_cashflow_czk: number | null
grid_export_revenue_czk: number | null
stored_cost_czk: number | null
green_bonus_czk: number | null
planned_cost_czk: number | null
@@ -46,7 +50,12 @@ export type IntervalEconomics = {
export type ChartDayPoint = {
day: string
daily_balance_czk: number
daily_grid_balance_czk: number
daily_green_bonus_czk: number
daily_import_cost_czk: number
daily_export_revenue_czk: number
cumulative_balance_czk: number
cumulative_grid_balance_czk: number
}
export type LockResponse = {