package logfile

import (
	"path/filepath"
	"sort"
	"time"

	"github.com/go-flucky/flucky/pkg/types"
)

// var validUUID = regexp.MustCompile("^[a-fA-F0-9]{8}-[a-fA-F0-9]{4}-4[a-fA-F0-9]{3}-[8|9|aA|bB][a-fA-F0-9]{3}-[a-fA-F0-9]{12}$")
var timeFormat = time.RFC3339

// Compression the measured values. The system checks whether the measured values
// of the same type correspond to those of the predecessor. If this is the case,
// the current value is discarded and the validity date of the previous value is
// set to that of the current value. This means that no information is lost.
// Only the validity period of the measured value is increased.
func Compression(measuredValues []types.MeasuredValue) []types.MeasuredValue {
	compressedMeasuredValues := make([]types.MeasuredValue, 0)
	lastMeasuredValuesBySensors := make(map[string]map[types.MeasuredValueType]types.MeasuredValue, 0)

	// Sort all measured values according to the start time of the validity date
	// in order to successfully implement the subsequent compression.
	sort.SliceStable(measuredValues, func(i int, j int) bool {
		return measuredValues[i].GetFromDate().Before(measuredValues[j].GetFromDate())
	})

	now := time.Now()

	for _, measuredValue := range measuredValues {
		if _, ok := lastMeasuredValuesBySensors[measuredValue.GetSensorID()]; !ok {
			lastMeasuredValuesBySensors[measuredValue.GetSensorID()] = make(map[types.MeasuredValueType]types.MeasuredValue, 0)
		}

		if _, ok := lastMeasuredValuesBySensors[measuredValue.GetSensorID()][measuredValue.GetMeasuredValueType()]; !ok {
			lastMeasuredValuesBySensors[measuredValue.GetSensorID()][measuredValue.GetMeasuredValueType()] = measuredValue
			continue
		}

		if lastMeasuredValuesBySensors[measuredValue.GetSensorID()][measuredValue.GetMeasuredValueType()].GetValue() == measuredValue.GetValue() {
			lastMeasuredValuesBySensors[measuredValue.GetSensorID()][measuredValue.GetMeasuredValueType()].SetTillDate(measuredValue.GetTillDate())
			lastMeasuredValuesBySensors[measuredValue.GetSensorID()][measuredValue.GetMeasuredValueType()].SetUpdateDate(&now)
		} else if lastMeasuredValuesBySensors[measuredValue.GetSensorID()][measuredValue.GetMeasuredValueType()].GetValue() != measuredValue.GetValue() {
			compressedMeasuredValues = append(compressedMeasuredValues, lastMeasuredValuesBySensors[measuredValue.GetSensorID()][measuredValue.GetMeasuredValueType()])
			delete(lastMeasuredValuesBySensors[measuredValue.GetSensorID()], measuredValue.GetMeasuredValueType())
			lastMeasuredValuesBySensors[measuredValue.GetSensorID()][measuredValue.GetMeasuredValueType()] = measuredValue
		}
	}

	// Copy all remaining entries from the map into the cache array
	for _, lastMeasuredValuesBySensor := range lastMeasuredValuesBySensors {
		for _, measuredValueType := range types.MeasuredValueTypes {
			if measuredValue, ok := lastMeasuredValuesBySensor[measuredValueType]; ok {
				compressedMeasuredValues = append(compressedMeasuredValues, measuredValue)
			}
		}
	}

	// Sort all measured values again to include the measured values from the
	// cache.
	sort.SliceStable(compressedMeasuredValues, func(i int, j int) bool {
		return compressedMeasuredValues[i].GetFromDate().Before(compressedMeasuredValues[j].GetFromDate())
	})

	return compressedMeasuredValues
}

// New returns a log file with basic functions for reading and writing data. The
// file extension of the logfile is taken into account to format the logfile
// into the correct format.
func New(logfile string) Logfile {

	ext := filepath.Ext(logfile)

	switch ext {
	case ".csv":
		return &csvLogfile{
			logfile: logfile,
		}
	case ".json":
		return &jsonLogfile{
			logfile: logfile,
		}
		// case ".xml":
		// 	return &xmlLogfile{
		// 		logfile: logfile,
		// 	}
	default:
		return &jsonLogfile{
			logfile: logfile,
		}
	}

}

func writeCreationDate(measuredValues []types.MeasuredValue) {
	now := time.Now()
	for _, measuredValue := range measuredValues {
		if measuredValue.GetCreationDate() == nil {
			measuredValue.SetCreationDate(&now)
		}
	}
}