package cli

import (
	"fmt"
	"io"
	"text/tabwriter"

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

// GetSensorsByMeasuredValues returns commulated list of sensors by measured values
func GetSensorsByMeasuredValues(measuredValues []types.MeasuredValue, cnf *config.Configuration) []*types.Sensor {
	sensors := []*types.Sensor{}
	for _, measuredValue := range measuredValues {
		duplicated := false
		foundSensor := &types.Sensor{}
		for _, cnfSensor := range cnf.Sensors {
			if measuredValue.GetSensorID() == cnfSensor.SensorID {
				foundSensor = cnfSensor

				// compare if id has already been added to list
				for _, sensor := range sensors {
					if cnfSensor.SensorID == sensor.SensorID {
						duplicated = true
						break
					}
				}
			}
		}
		if duplicated {
			continue
		}
		if foundSensor != nil {
			sensors = append(sensors, foundSensor)
			continue
		} else {
			sensors = append(sensors, &types.Sensor{SensorID: measuredValue.GetSensorID()})
		}
	}
	return sensors
}

// PrintRGBLEDs displays a list with all configured RGBLEDs
func PrintRGBLEDs(cnf *config.Configuration, w io.Writer) {

	// declare tabwriter
	tw := tabwriter.NewWriter(w, 0, 0, 3, ' ', 0)

	// headline
	fmt.Fprintln(tw, "name\tlocation\tblue\tgreen\tred\tenabled\taction")

	for _, rgbled := range cnf.RGBLEDs {
		fmt.Fprintf(tw, "%v\t%v\t%v\t%v\t%v\t%v\t", rgbled.RGBLEDName, rgbled.RGBLEDLocation, *rgbled.BaseColorsToGPIO[types.BaseColorBlue], *rgbled.BaseColorsToGPIO[types.BaseColorGreen], *rgbled.BaseColorsToGPIO[types.BaseColorRed], rgbled.RGBLEDEnabled)

		for action, color := range rgbled.ActionMapping {
			fmt.Fprintf(tw, "%v=%v,", action, color)
		}

		fmt.Fprintf(tw, "\n")
	}

	tw.Flush()
}

// PrintSensors displays a list with all configured sensors
func PrintSensors(cnf *config.Configuration, w io.Writer) error {

	// declar tabwriter
	tw := tabwriter.NewWriter(w, 0, 0, 3, ' ', 0)

	fmt.Fprint(tw, "name\tlocation\ttype\twire-id\tgpio\tenabled\n")

	for _, sensor := range cnf.Sensors {
		fmt.Fprintf(tw, "%v\t%v\t%v\t%v\t%v\t%v\n", sensor.SensorName, sensor.SensorLocation, sensor.SensorModel, *sensor.WireID, *sensor.GPIONumber, sensor.SensorEnabled)
	}

	tw.Flush()

	return nil
}

// PrintMeasuredValues displays a list of measured values
func PrintMeasuredValues(measuredValues []types.MeasuredValue, cnf *config.Configuration, w io.Writer) {

	sensors := GetSensorsByMeasuredValues(measuredValues, cnf)

	// sort measured values for every sensor
	orderedMeasuredValues := make(map[string][]types.MeasuredValue)
	for _, measuredValue := range measuredValues {
		orderedMeasuredValues[measuredValue.GetSensorID()] = append(orderedMeasuredValues[measuredValue.GetSensorID()], measuredValue)
	}

	// declare tabwriter
	tw := tabwriter.NewWriter(w, 0, 0, 3, ' ', 0)

	// headlines
	for i, sensor := range sensors {
		fmt.Fprintf(tw, "%v\t", sensor.Name())
		if i == len(sensors)-1 {
			fmt.Fprintf(tw, "\n")
		}
	}

	// find sensor with maximum temperature values
	maxLength := 0
	for _, orderedMeasuredValue := range orderedMeasuredValues {
		if len(orderedMeasuredValue) > maxLength {
			maxLength = len(orderedMeasuredValue)
		}
	}

	// body
	for i := 0; i < maxLength; i++ {
		for _, sensor := range sensors {
			if len(orderedMeasuredValues[sensor.SensorID]) > i {
				fmt.Fprintf(tw, "%3.3f\t", orderedMeasuredValues[sensor.SensorID][i].GetValue())
			} else {
				fmt.Fprint(tw, "\t")
			}

		}
		fmt.Fprint(tw, "\n")
	}
	tw.Flush()
}