go-weatherstation/internal/db/series.go

package db

import (
	"context"
	"database/sql"
	"errors"
	"fmt"
	"time"

	"github.com/jackc/pgx/v5"
)

type ObservationPoint struct {
	TS         time.Time `json:"ts"`
	TempC      *float64  `json:"temp_c,omitempty"`
	RH         *float64  `json:"rh,omitempty"`
	WindMS     *float64  `json:"wind_m_s,omitempty"`
	WindGustMS *float64  `json:"wind_gust_m_s,omitempty"`
	WindDirDeg *float64  `json:"wind_dir_deg,omitempty"`
	UVI        *float64  `json:"uvi,omitempty"`
	LightLux   *float64  `json:"light_lux,omitempty"`
	BatteryMV  *float64  `json:"battery_mv,omitempty"`
	SupercapV  *float64  `json:"supercap_v,omitempty"`
}

type ForecastPoint struct {
	TS           time.Time `json:"ts"`
	TempC        *float64  `json:"temp_c,omitempty"`
	RH           *float64  `json:"rh,omitempty"`
	PressureMSLH *float64  `json:"pressure_msl_hpa,omitempty"`
	WindMS       *float64  `json:"wind_m_s,omitempty"`
	WindGustMS   *float64  `json:"wind_gust_m_s,omitempty"`
	WindDirDeg   *float64  `json:"wind_dir_deg,omitempty"`
	PrecipMM     *float64  `json:"precip_mm,omitempty"`
	CloudCover   *float64  `json:"cloud_cover,omitempty"`
}

type ForecastSeries struct {
	RetrievedAt time.Time       `json:"retrieved_at"`
	Points      []ForecastPoint `json:"points"`
}

func (d *DB) ObservationSeries(ctx context.Context, site, bucket string, start, end time.Time) ([]ObservationPoint, error) {
	if end.Before(start) || end.Equal(start) {
		return nil, errors.New("invalid time range")
	}

	interval := "5 minutes"
	switch bucket {
	case "1m":
		interval = "1 minute"
	case "5m":
		interval = "5 minutes"
	default:
		return nil, fmt.Errorf("unsupported bucket: %s", bucket)
	}

	query := fmt.Sprintf(`
		SELECT
			time_bucket(INTERVAL '%s', ts) AS bucket,
			avg(temperature_c) AS temp_c_avg,
			avg(humidity) AS rh_avg,
			avg(wind_avg_m_s) AS wind_avg_ms_avg,
			max(wind_max_m_s) AS wind_gust_ms_max,
			avg(wind_dir_deg) AS wind_dir_deg_avg,
			max(uvi) AS uvi_max,
			max(light_lux) AS light_lux_max,
			avg(battery_mv) AS battery_mv_avg,
			avg(supercap_v) AS supercap_v_avg
		FROM observations_ws90
		WHERE site = $1
		  AND ts >= $2
		  AND ts <= $3
		GROUP BY bucket
		ORDER BY bucket ASC
	`, interval)

	rows, err := d.Pool.Query(ctx, query, site, start, end)
	if err != nil {
		return nil, err
	}
	defer rows.Close()

	points := make([]ObservationPoint, 0, 512)
	for rows.Next() {
		var (
			ts                                 time.Time
			temp, rh, wind, gust               sql.NullFloat64
			dir, uvi, light, battery, supercap sql.NullFloat64
		)
		if err := rows.Scan(&ts, &temp, &rh, &wind, &gust, &dir, &uvi, &light, &battery, &supercap); err != nil {
			return nil, err
		}
		points = append(points, ObservationPoint{
			TS:         ts,
			TempC:      nullFloatPtr(temp),
			RH:         nullFloatPtr(rh),
			WindMS:     nullFloatPtr(wind),
			WindGustMS: nullFloatPtr(gust),
			WindDirDeg: nullFloatPtr(dir),
			UVI:        nullFloatPtr(uvi),
			LightLux:   nullFloatPtr(light),
			BatteryMV:  nullFloatPtr(battery),
			SupercapV:  nullFloatPtr(supercap),
		})
	}
	if rows.Err() != nil {
		return nil, rows.Err()
	}

	return points, nil
}

func (d *DB) LatestObservation(ctx context.Context, site string) (*ObservationPoint, error) {
	query := `
		SELECT
			ts,
			temperature_c,
			humidity,
			wind_avg_m_s,
			wind_max_m_s,
			wind_dir_deg,
			uvi,
			light_lux,
			battery_mv,
			supercap_v
		FROM observations_ws90
		WHERE site = $1
		ORDER BY ts DESC
		LIMIT 1
	`

	var (
		ts                                 time.Time
		temp, rh, wind, gust               sql.NullFloat64
		dir, uvi, light, battery, supercap sql.NullFloat64
	)
	err := d.Pool.QueryRow(ctx, query, site).Scan(&ts, &temp, &rh, &wind, &gust, &dir, &uvi, &light, &battery, &supercap)
	if err != nil {
		if errors.Is(err, pgx.ErrNoRows) {
			return nil, nil
		}
		return nil, err
	}

	return &ObservationPoint{
		TS:         ts,
		TempC:      nullFloatPtr(temp),
		RH:         nullFloatPtr(rh),
		WindMS:     nullFloatPtr(wind),
		WindGustMS: nullFloatPtr(gust),
		WindDirDeg: nullFloatPtr(dir),
		UVI:        nullFloatPtr(uvi),
		LightLux:   nullFloatPtr(light),
		BatteryMV:  nullFloatPtr(battery),
		SupercapV:  nullFloatPtr(supercap),
	}, nil
}

func (d *DB) ForecastSeriesLatest(ctx context.Context, site, model string) (ForecastSeries, error) {
	var retrieved sql.NullTime
	err := d.Pool.QueryRow(ctx, `
		SELECT max(retrieved_at)
		FROM forecast_openmeteo_hourly
		WHERE site = $1 AND model = $2
	`, site, model).Scan(&retrieved)
	if err != nil {
		return ForecastSeries{}, err
	}
	if !retrieved.Valid {
		return ForecastSeries{}, nil
	}

	rows, err := d.Pool.Query(ctx, `
		SELECT
			ts,
			temp_c,
			rh,
			pressure_msl_hpa,
			wind_m_s,
			wind_gust_m_s,
			wind_dir_deg,
			precip_mm,
			cloud_cover
		FROM forecast_openmeteo_hourly
		WHERE site = $1 AND model = $2 AND retrieved_at = $3
		ORDER BY ts ASC
	`, site, model, retrieved.Time)
	if err != nil {
		return ForecastSeries{}, err
	}
	defer rows.Close()

	points := make([]ForecastPoint, 0, 256)
	for rows.Next() {
		var (
			ts                        time.Time
			temp, rh, msl, wind, gust sql.NullFloat64
			dir, precip, cloud        sql.NullFloat64
		)
		if err := rows.Scan(&ts, &temp, &rh, &msl, &wind, &gust, &dir, &precip, &cloud); err != nil {
			return ForecastSeries{}, err
		}
		points = append(points, ForecastPoint{
			TS:           ts,
			TempC:        nullFloatPtr(temp),
			RH:           nullFloatPtr(rh),
			PressureMSLH: nullFloatPtr(msl),
			WindMS:       nullFloatPtr(wind),
			WindGustMS:   nullFloatPtr(gust),
			WindDirDeg:   nullFloatPtr(dir),
			PrecipMM:     nullFloatPtr(precip),
			CloudCover:   nullFloatPtr(cloud),
		})
	}
	if rows.Err() != nil {
		return ForecastSeries{}, rows.Err()
	}

	return ForecastSeries{
		RetrievedAt: retrieved.Time,
		Points:      points,
	}, nil
}

func (d *DB) ForecastSeriesRange(ctx context.Context, site, model string, start, end time.Time) (ForecastSeries, error) {
	rows, err := d.Pool.Query(ctx, `
		SELECT DISTINCT ON (ts)
			ts,
			retrieved_at,
			temp_c,
			rh,
			pressure_msl_hpa,
			wind_m_s,
			wind_gust_m_s,
			wind_dir_deg,
			precip_mm,
			cloud_cover
		FROM forecast_openmeteo_hourly
		WHERE site = $1 AND model = $2 AND ts >= $3 AND ts <= $4
		ORDER BY ts ASC, retrieved_at DESC
	`, site, model, start, end)
	if err != nil {
		return ForecastSeries{}, err
	}
	defer rows.Close()

	points := make([]ForecastPoint, 0, 256)
	var maxRetrieved time.Time
	for rows.Next() {
		var (
			ts                        time.Time
			retrieved                 time.Time
			temp, rh, msl, wind, gust sql.NullFloat64
			dir, precip, cloud        sql.NullFloat64
		)
		if err := rows.Scan(&ts, &retrieved, &temp, &rh, &msl, &wind, &gust, &dir, &precip, &cloud); err != nil {
			return ForecastSeries{}, err
		}
		if retrieved.After(maxRetrieved) {
			maxRetrieved = retrieved
		}
		points = append(points, ForecastPoint{
			TS:           ts,
			TempC:        nullFloatPtr(temp),
			RH:           nullFloatPtr(rh),
			PressureMSLH: nullFloatPtr(msl),
			WindMS:       nullFloatPtr(wind),
			WindGustMS:   nullFloatPtr(gust),
			WindDirDeg:   nullFloatPtr(dir),
			PrecipMM:     nullFloatPtr(precip),
			CloudCover:   nullFloatPtr(cloud),
		})
	}
	if rows.Err() != nil {
		return ForecastSeries{}, rows.Err()
	}

	return ForecastSeries{
		RetrievedAt: maxRetrieved,
		Points:      points,
	}, nil
}

func nullFloatPtr(v sql.NullFloat64) *float64 {
	if !v.Valid {
		return nil
	}
	val := v.Float64
	return &val
}