package kind import ( stdj "encoding/json" "math/big" "strconv" "strings" "time" "github.com/neilotoole/sq/libsq/core/timez" "github.com/neilotoole/sq/libsq/core/errz" "github.com/neilotoole/sq/libsq/core/stringz" ) // Detector is used to detect the kind of a stream of values. // The caller adds values via Sample and then invokes Detect. type Detector struct { kinds map[Kind]struct{} mungeFns map[Kind]MungeFunc dirty bool // foundString is set to true if any of the values passed // to Detector.Sample had type string. foundString bool } // NewDetector returns a new instance. func NewDetector() *Detector { return &Detector{ kinds: map[Kind]struct{}{ //nolint:exhaustive Int: {}, Float: {}, Decimal: {}, Bool: {}, Time: {}, Date: {}, Datetime: {}, }, mungeFns: map[Kind]MungeFunc{}, } } // Sample adds a sample to the detector. func (d *Detector) Sample(v any) { switch v.(type) { case nil: // Can't glean any info from nil return default: // Don't know what this, so delete all kinds d.retain() return case float32, float64: d.retain(Float, Decimal) return case int, int8, int16, int32, int64: d.retain(Int, Float, Decimal) return case bool: d.retain(Bool) return case time.Time: d.retain(Time, Date, Datetime) return case stdj.Number: // JSON number d.foundString = true d.retain(Decimal) return case string: // We need to do more work to figure out the kind when // we're getting string values d.foundString = true } // We're dealing with a string value, which could a variety // of things, such as: "1", "1.0", "true", "11:30". d.doSampleString(v.(string)) } //nolint:gocognit,funlen func (d *Detector) doSampleString(s string) { if s == "" { // Can't really do anything useful with this return } var err error if d.has(Int) || d.has(Decimal) { if strings.ContainsRune(s, '.') { // Int cannot contain '.', e.g. "1.0". d.delete(Int) } if strings.ContainsAny(s, "eE") { // Int and Decimal cannot contain E or e. // Most likely a float, e.g. "6.67428e-11" d.delete(Int, Decimal) } } if d.has(Decimal) { // If Decimal is still a candidate, check that we can parse it if _, _, err = big.ParseFloat(s, 10, 64, 0); err != nil { // If s cannot be parsed as a decimal, it also can't // be int or float d.delete(Decimal, Int, Float) } else { // s can be parsed as decimal, can't be time d.delete(Time, Date, Datetime) } } if d.has(Int) { if _, err = strconv.ParseInt(s, 10, 64); err != nil { d.delete(Int) } else { // s can be parsed as int, can't be time d.delete(Time, Date, Datetime) } } if d.has(Float) { if _, err = strconv.ParseFloat(s, 64); err != nil { d.delete(Float) } else { // s can be parsed as float, can't be time d.delete(Time, Date, Datetime) } } if d.has(Bool) { if _, err = stringz.ParseBool(s); err != nil { d.delete(Bool) } else { // s can be parsed as bool, can't be time, // but still could be a number ("1" == true) d.delete(Time, Date, Datetime) } } if d.has(Time) { ok, format := detectKindTime(s) if !ok { // It's not a recognized time format d.delete(Time) } else { // If it's kind.Time, it can't be anything else d.retain(Time) d.mungeFns[Time] = func(val any) (any, error) { if val == nil { return nil, nil //nolint:nilnil } s, ok = val.(string) if !ok { return nil, errz.Errorf("expected %T to be string", val) } if s == "" { return nil, nil //nolint:nilnil } var t time.Time t, err = time.Parse(format, s) if err != nil { return nil, errz.Err(err) } return t.Format(format), nil } } } if d.has(Date) { ok, format := detectKindDate(s) if !ok { // It's not a recognized date format d.delete(Date) } else { // If it's kind.Date, it can't be anything else d.retain(Date) d.mungeFns[Date] = func(val any) (any, error) { if val == nil { return nil, nil //nolint:nilnil } s, ok = val.(string) if !ok { return nil, errz.Errorf("expected %T to be string", val) } if s == "" { return nil, nil //nolint:nilnil } var t time.Time t, err = time.Parse(format, s) if err != nil { return nil, errz.Err(err) } return t.Format(format), nil } } } if d.has(Datetime) { ok, format := detectKindDatetime(s) if !ok { // It's not a recognized datetime format d.delete(Datetime) } else { // If it's kind.Datetime, it can't be anything else d.retain(Datetime) // This mungeFn differs from kind.Date and kind.Time in that // it returns a time.Time instead of a string d.mungeFns[Datetime] = func(val any) (any, error) { if val == nil { return nil, nil //nolint:nilnil } s, ok := val.(string) if !ok { return nil, errz.Errorf("expected %T to be string", val) } if s == "" { return nil, nil //nolint:nilnil } t, err := time.Parse(format, s) if err != nil { return nil, errz.Err(err) } return t, nil } } } } // Detect returns the detected Kind. If ambiguous, Text is returned, // unless all sampled values were nil, in which case Null is returned. // If the returned mungeFn is non-nil, it can be used to convert input // values to their canonical form. For example, for Datetime the MungeFunc // would accept string "2020-06-11T02:50:54Z" and return a time.Time, // while for Date, the MungeFunc would accept "1970-01-01" or "01 Jan 1970" // and always return a string in the canonicalized form "1970-01-01". func (d *Detector) Detect() (kind Kind, mungeFn MungeFunc, err error) { if !d.dirty { if d.foundString { return Text, nil, nil } // If we haven't filtered any kinds, default to Null. return Null, nil, nil } switch len(d.kinds) { case 0: return Text, nil, nil case 1: for k := range d.kinds { return k, d.mungeFns[k], nil } } // NOTE: this logic below about detecting the remaining type // is a bit sketchy. If you're debugging this code, it's // probably the case that the code below is faulty. if d.has(Time, Date, Datetime) { // If all three time types are left, use the most // general, i.e. Datetime. return Datetime, d.mungeFns[Datetime], nil } if d.has(Time) { return Time, d.mungeFns[Time], nil } if d.has(Date) { return Date, d.mungeFns[Date], nil } if d.has(Datetime) { return Datetime, d.mungeFns[Datetime], nil } if d.foundString { if d.has(Decimal, Int) { // If we have to choose between Decimal and Int, we // pick Int, as it's stricter. return Int, nil, nil } if d.has(Decimal) { return Decimal, nil, nil } } if d.has(Int) { return Int, nil, nil } if d.has(Float) { return Float, nil, nil } if d.has(Bool) { return Bool, nil, nil } return Text, nil, nil } // delete deletes each of kinds from d.kinds. func (d *Detector) delete(kinds ...Kind) { d.dirty = true for _, k := range kinds { delete(d.kinds, k) } } // retain deletes everything from kd.kinds except items // contains in the kinds arg. If kinds is empty, d.kinds is // emptied. func (d *Detector) retain(kinds ...Kind) { d.dirty = true for k := range d.kinds { if !containsKind(k, kinds...) { delete(d.kinds, k) } } } // has returns true if kd.kinds contains each of k. func (d *Detector) has(kinds ...Kind) bool { var ok bool for _, k := range kinds { if _, ok = d.kinds[k]; !ok { return false } } return true } func detectKindTime(s string) (ok bool, format string) { if s == "" { return false, "" } const timeNoSecsFormat = "15:04" formats := []string{time.TimeOnly, timeNoSecsFormat, time.Kitchen} var err error for _, f := range formats { if _, err = time.Parse(f, s); err == nil { return true, f } } return false, "" } func detectKindDate(s string) (ok bool, format string) { if s == "" { return false, "" } const ( format1 = "02 Jan 2006" format2 = "2006/01/02" format3 = "2006-01-02" ) formats := []string{time.DateOnly, format1, format2, format3} var err error for _, f := range formats { if _, err = time.Parse(f, s); err == nil { return true, f } } return false, "" } func detectKindDatetime(s string) (ok bool, format string) { if s == "" { return false, "" } formats := []string{ time.RFC3339, timez.RFC3339Z, timez.ISO8601, time.RFC3339Nano, time.ANSIC, time.UnixDate, time.RubyDate, time.RFC822, time.RFC822Z, time.RFC850, time.RFC1123, time.RFC1123Z, time.Stamp, time.StampMilli, time.StampMicro, time.StampNano, } var err error for _, f := range formats { if _, err = time.Parse(f, s); err == nil { return true, f } } return false, "" }