375 lines
11 KiB
Go
375 lines
11 KiB
Go
package taf
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import (
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"io"
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"io/fs"
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"math/big"
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"os"
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"reflect"
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"strconv"
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"strings"
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"time"
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"github.com/alecthomas/participle/v2"
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"go.elara.ws/taf/internal/parser"
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"go.elara.ws/taf/units"
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)
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// ParseString parses a TAF string and returns a Forecast.
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// This is equivalent to Parse(strings.NewReader(s)).
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func ParseString(s string) (*Forecast, error) {
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return Parse(strings.NewReader(s))
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}
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// ParseFile parses a TAF string and returns a Forecast.
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// This is equivalent to opening a file and passing it
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// to Parse().
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func ParseFile(path string) (*Forecast, error) {
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fl, err := os.Open(path)
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if err != nil {
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return nil, err
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}
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defer fl.Close()
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return Parse(fl)
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}
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// Parse parses the data in a reader using default options and
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// returns a Forecast
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func Parse(r io.Reader) (*Forecast, error) {
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return ParseWithOptions(r, Options{})
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}
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// Options contains options for the parser
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type Options struct {
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// If this is set, all distance units in the forecast
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// will be converted to the given unit
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DistanceUnit units.Distance
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// If this is set, all speed units in the forecast will
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// be converted to the given unit
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SpeedUnit units.Speed
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}
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// ParseWithOptions parses the data in a reader and returns a Forecast
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func ParseWithOptions(r io.Reader, opts Options) (*Forecast, error) {
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filename := "unknown"
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switch r := r.(type) {
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case *os.File:
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filename = r.Name()
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case fs.File:
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fi, err := r.Stat()
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if err == nil {
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filename = fi.Name()
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}
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case *strings.Reader:
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filename = "string"
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}
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ast, err := parser.Parser.Parse(filename, r)
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if err != nil {
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return nil, err
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}
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fc := &Forecast{}
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out := reflect.ValueOf(fc).Elem()
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for _, item := range ast.Items {
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switch {
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case item.ID != nil:
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setField(out, "Identifier", *item.ID)
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case item.Time != nil:
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t, err := parseTime(*item.Time)
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if err != nil {
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return nil, participle.Errorf(item.Pos, "time: %s", err)
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}
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setField(out, "PublishTime", t)
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// The Time item always comes with a Valid as well because
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// of the way it's parsed into the AST
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vp, err := parseValid(item.Valid)
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if err != nil {
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return nil, participle.Errorf(item.Pos, "time: %s", err)
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}
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setField(out, "Valid", vp)
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case item.Weather != nil:
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appendField(out, "Weather", Weather{
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Modifier: convertModifier(item.Weather.Modifier),
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Descriptor: convertDescriptor(item.Weather.Descriptor),
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Precipitation: convertPrecipitation(item.Weather.Precipitation),
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Obscuration: convertObscuration(item.Weather.Obscuration),
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Phenomenon: convertPhenomenon(item.Weather.Other),
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})
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case item.Vicinity != nil:
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appendField(out, "Weather", Weather{
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Vicinity: true,
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Descriptor: convertDescriptor(item.Vicinity.Descriptor),
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Precipitation: convertPrecipitation(item.Vicinity.Precipitation),
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})
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case item.SkyCondition != nil:
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var altitude int
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if item.SkyCondition.Altitude != "" {
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altitude, err = strconv.Atoi(item.SkyCondition.Altitude)
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if err != nil {
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return nil, participle.Errorf(item.SkyCondition.Pos, "sky: %s", err)
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}
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}
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appendField(out, "SkyCondition", SkyCondition{
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Altitude: altitude * 100, // Scale factor for altitude is 100
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Type: convertSkyConditionType(item.SkyCondition.Type),
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CloudType: convertCloudType(item.SkyCondition.CloudType),
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})
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case item.Temperature != nil:
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vt, err := parseValidTime(item.Temperature.Time)
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if err != nil {
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return nil, participle.Errorf(item.Temperature.Pos, "temp: %s", err)
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}
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val, err := strconv.Atoi(item.Temperature.Value)
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if err != nil {
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return nil, participle.Errorf(item.Temperature.Pos, "temp: %s", err)
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}
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appendField(out, "Temperature", Temperature{
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Type: convertTemperatureType(item.Temperature.Type),
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Time: vt,
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Value: val,
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})
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case item.Visibility != nil:
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// This value may have a space at the end if there's no unit
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item.Visibility.Value = strings.TrimSpace(item.Visibility.Value)
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// Create a new rational number
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ratNum := new(big.Rat)
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// If there's a space, this is a mixed number, split it at the space
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if before, after, ok := strings.Cut(item.Visibility.Value, " "); ok {
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// Set the rational number to the fraction of the mixed number
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ratNum, ok = ratNum.SetString(after)
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if !ok {
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return nil, participle.Errorf(item.Visibility.Pos, "visibility: invalid fraction %q", after)
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}
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// Create a new rational number and set it to the whole part of
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// the mixed number
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add, ok := new(big.Rat).SetString(before)
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if !ok {
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return nil, participle.Errorf(item.Visibility.Pos, "visibility: invalid whole number %q", before)
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}
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// Add the whole part to the fractional part
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ratNum = ratNum.Add(ratNum, add)
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} else {
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// There's no space, so this is just a fraction or a whole number.
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// Just set the rational number to the whole string.
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ratNum, ok = ratNum.SetString(before)
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if !ok {
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return nil, participle.Errorf(item.Visibility.Pos, "visibility: invalid fraction %q", after)
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}
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}
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// If there's no unit, set the unit to meters
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if item.Visibility.Unit == "" {
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item.Visibility.Unit = "M"
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}
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unit, ok := units.ParseDistance(item.Visibility.Unit)
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if !ok {
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return nil, participle.Errorf(item.Visibility.Pos, "visibility: invalid unit %q", item.Visibility.Unit)
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}
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val, _ := ratNum.Float64()
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if opts.DistanceUnit != "" {
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val = unit.Convert(opts.DistanceUnit, val)
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unit = opts.DistanceUnit
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}
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setField(out, "Visibility", Visibility{
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Plus: item.Visibility.Plus,
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Value: val,
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Unit: unit,
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})
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case item.WindSpeed != nil:
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var direction int
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// If the wind speed is variable, there's no direction to worry about
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if !item.WindSpeed.Variable {
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// The length of the value must be at least 5 (3 characters for direction and 2 for speed)
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if len(item.WindSpeed.Value) < 5 {
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return nil, participle.Errorf(item.WindSpeed.Pos, "wind: invalid length (%d)", len(item.WindSpeed.Value))
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}
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// First three characters are the direction
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direction, err = strconv.Atoi(item.WindSpeed.Value[:3])
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if err != nil {
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return nil, participle.Errorf(item.WindSpeed.Pos, "wind: %s", err)
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}
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// Set the value to the last two characters so it can be processed
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// as just a speed.
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item.WindSpeed.Value = item.WindSpeed.Value[3:]
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// The direction is in degrees so it may not go above 360 or below 0
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if direction > 360 || direction < 0 {
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return nil, participle.Errorf(item.WindSpeed.Pos, "wind: invalid direction (%d)", direction)
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}
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}
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// If there was a direction, it was removed above, so now we can just
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// get the speed by parsing the string
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speed, err := strconv.Atoi(item.WindSpeed.Value)
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if err != nil {
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return nil, participle.Errorf(item.WindSpeed.Pos, "wind: %s", err)
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}
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var gusts int
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if item.WindSpeed.Gusts != "" {
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gusts, err = strconv.Atoi(item.WindSpeed.Gusts)
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if err != nil {
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return nil, participle.Errorf(item.WindSpeed.Pos, "wind: %s", err)
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}
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}
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var windshear int
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if item.WindSpeed.WindShear != "" {
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windshear, err = strconv.Atoi(item.WindSpeed.WindShear)
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if err != nil {
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return nil, participle.Errorf(item.WindSpeed.Pos, "wind: %s", err)
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}
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}
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unit, ok := units.ParseSpeed(item.WindSpeed.Unit)
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if !ok {
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return nil, participle.Errorf(item.WindSpeed.Pos, "wind: invalid unit %q", item.Visibility.Unit)
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}
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if opts.SpeedUnit != "" {
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speed = unit.Convert(opts.SpeedUnit, speed)
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if gusts != 0 {
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gusts = unit.Convert(opts.SpeedUnit, gusts)
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}
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unit = opts.SpeedUnit
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}
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setField(out, "Wind", Wind{
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Gusts: gusts,
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Speed: speed,
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WindShear: windshear * 100, // Scale factor for altitude is 100
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Direction: Direction{
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Variable: item.WindSpeed.Variable,
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Value: direction,
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},
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Unit: unit,
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})
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case item.Flag != nil:
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switch {
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case item.Flag.CAVOK:
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appendField(out, "Flags", CeilingAndVisibilityOK)
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}
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case item.Change != nil:
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ch := &Change{
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Type: convertChangeType(item.Change.Type),
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}
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// FM changes don't have a valid pair, they only come with a single time string
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if ch.Type == From {
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t, err := parseTime(item.Change.Time)
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if err != nil {
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return nil, participle.Errorf(item.Change.Pos, "changes: %s", err)
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}
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ch.Valid = ValidPair{From: t}
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} else {
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vp, err := parseValid(item.Change.Valid)
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if err != nil {
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return nil, participle.Errorf(item.Change.Pos, "changes: %s", err)
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}
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ch.Valid = vp
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}
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fc.Changes = append(fc.Changes, ch)
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// Set out to the change value so that future mutations
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// happen to the change rather than the root forecast.
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out = reflect.ValueOf(ch).Elem()
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case item.Probability != nil:
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// If the time is empty, this probability belongs to the
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// previous change.
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if item.Probability.Time == "" {
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prob, err := strconv.Atoi(item.Probability.Value)
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if err != nil {
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return nil, participle.Errorf(item.Probability.Pos, "prob: %s", err)
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}
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setField(out, "Probability", prob)
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} else {
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pr := &Probability{}
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// The probability time string must have 4 characters,
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// 2 for starting time and 2 for ending time
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if len(item.Probability.Time) < 4 {
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return nil, participle.Errorf(item.Probability.Pos, "prob: invalid time %q", item.Probability.Time)
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}
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startStr := item.Probability.Time[:2]
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endStr := item.Probability.Time[2:]
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start, err := strconv.Atoi(startStr)
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if err != nil {
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return nil, participle.Errorf(item.Probability.Pos, "prob: %s", err)
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}
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end, err := strconv.Atoi(endStr)
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if err != nil {
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return nil, participle.Errorf(item.Probability.Pos, "prob: %s", err)
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}
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t := fc.PublishTime
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pr.Valid = ValidPair{
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From: time.Date(t.Year(), t.Month(), t.Day(), start, 0, 0, 0, time.UTC),
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To: time.Date(t.Year(), t.Month(), t.Day(), end, 0, 0, 0, time.UTC),
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}
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// Get the duration by subtracting the from time from the to time
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pr.Valid.Duration = pr.Valid.To.Sub(pr.Valid.From)
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fc.Probabilities = append(fc.Probabilities, pr)
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// Set out to the probability value so that future mutations
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// happen to the probability rather than the root forecast.
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out = reflect.ValueOf(pr).Elem()
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}
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}
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}
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return fc, nil
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}
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// setField sets a field of a struct to a value.
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//
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// This is used to allow mutations to happen on either
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// the root forecast or a change or probability. It makes it
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// easier to handle the different types.
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func setField(rv reflect.Value, name string, to any) {
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rv.FieldByName(name).Set(reflect.ValueOf(to))
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}
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// appendField appends a value to a slice in the field of a struct.
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//
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// This is used to allow mutations to happen on either
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// the root forecast or a change or probability. It makes it
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// easier to handle the different types.
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func appendField(rv reflect.Value, name string, items ...any) {
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f := rv.FieldByName(name)
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f.Set(reflect.Append(f, anyToValues(items)...))
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}
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// anyToValues converts a slice of any type to a slice
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// of reflect values.
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func anyToValues(items []any) []reflect.Value {
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out := make([]reflect.Value, len(items))
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for i, item := range items {
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out[i] = reflect.ValueOf(item)
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}
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return out
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}
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