diff --git a/vendor.conf b/vendor.conf index 3ac5c36c09..3f26c5141d 100755 --- a/vendor.conf +++ b/vendor.conf @@ -44,7 +44,7 @@ github.com/matttproud/golang_protobuf_extensions c12348ce28de40eed0136aa2b644 github.com/Microsoft/go-winio 6c72808b55902eae4c5943626030429ff20f3b63 # v0.4.14 github.com/Microsoft/hcsshim 5bc557dd210ff2caf615e6e22d398123de77fc11 # v0.8.9 github.com/miekg/pkcs11 210dc1e16747c5ba98a03bcbcf728c38086ea357 # v1.0.3 -github.com/mitchellh/mapstructure fa473d140ef3c6adf42d6b391fe76707f1f243c8 # v1.0.0 +github.com/mitchellh/mapstructure d16e9488127408e67948eb43b6d3fbb9f222da10 # v1.3.2 github.com/moby/buildkit ae7ff7174f73bcb4df89b97e1623b3fb0bfb0a0c github.com/moby/sys 6154f11e6840c0d6b0dbb23f4125a6134b3013c9 # mountinfo/v0.1.3 github.com/moby/term 73f35e472e8f0a3f91347164138ce6bd73b756a9 diff --git a/vendor/github.com/mitchellh/mapstructure/decode_hooks.go b/vendor/github.com/mitchellh/mapstructure/decode_hooks.go index 2a727575a3..1f0abc65ab 100644 --- a/vendor/github.com/mitchellh/mapstructure/decode_hooks.go +++ b/vendor/github.com/mitchellh/mapstructure/decode_hooks.go @@ -2,6 +2,8 @@ package mapstructure import ( "errors" + "fmt" + "net" "reflect" "strconv" "strings" @@ -115,6 +117,50 @@ func StringToTimeDurationHookFunc() DecodeHookFunc { } } +// StringToIPHookFunc returns a DecodeHookFunc that converts +// strings to net.IP +func StringToIPHookFunc() DecodeHookFunc { + return func( + f reflect.Type, + t reflect.Type, + data interface{}) (interface{}, error) { + if f.Kind() != reflect.String { + return data, nil + } + if t != reflect.TypeOf(net.IP{}) { + return data, nil + } + + // Convert it by parsing + ip := net.ParseIP(data.(string)) + if ip == nil { + return net.IP{}, fmt.Errorf("failed parsing ip %v", data) + } + + return ip, nil + } +} + +// StringToIPNetHookFunc returns a DecodeHookFunc that converts +// strings to net.IPNet +func StringToIPNetHookFunc() DecodeHookFunc { + return func( + f reflect.Type, + t reflect.Type, + data interface{}) (interface{}, error) { + if f.Kind() != reflect.String { + return data, nil + } + if t != reflect.TypeOf(net.IPNet{}) { + return data, nil + } + + // Convert it by parsing + _, net, err := net.ParseCIDR(data.(string)) + return net, err + } +} + // StringToTimeHookFunc returns a DecodeHookFunc that converts // strings to time.Time. func StringToTimeHookFunc(layout string) DecodeHookFunc { diff --git a/vendor/github.com/mitchellh/mapstructure/go.mod b/vendor/github.com/mitchellh/mapstructure/go.mod index d2a7125620..a03ae97308 100644 --- a/vendor/github.com/mitchellh/mapstructure/go.mod +++ b/vendor/github.com/mitchellh/mapstructure/go.mod @@ -1 +1,3 @@ module github.com/mitchellh/mapstructure + +go 1.14 diff --git a/vendor/github.com/mitchellh/mapstructure/mapstructure.go b/vendor/github.com/mitchellh/mapstructure/mapstructure.go index d3222b8f4d..b384d9d928 100644 --- a/vendor/github.com/mitchellh/mapstructure/mapstructure.go +++ b/vendor/github.com/mitchellh/mapstructure/mapstructure.go @@ -1,10 +1,150 @@ -// Package mapstructure exposes functionality to convert an arbitrary -// map[string]interface{} into a native Go structure. +// Package mapstructure exposes functionality to convert one arbitrary +// Go type into another, typically to convert a map[string]interface{} +// into a native Go structure. // // The Go structure can be arbitrarily complex, containing slices, // other structs, etc. and the decoder will properly decode nested // maps and so on into the proper structures in the native Go struct. // See the examples to see what the decoder is capable of. +// +// The simplest function to start with is Decode. +// +// Field Tags +// +// When decoding to a struct, mapstructure will use the field name by +// default to perform the mapping. For example, if a struct has a field +// "Username" then mapstructure will look for a key in the source value +// of "username" (case insensitive). +// +// type User struct { +// Username string +// } +// +// You can change the behavior of mapstructure by using struct tags. +// The default struct tag that mapstructure looks for is "mapstructure" +// but you can customize it using DecoderConfig. +// +// Renaming Fields +// +// To rename the key that mapstructure looks for, use the "mapstructure" +// tag and set a value directly. For example, to change the "username" example +// above to "user": +// +// type User struct { +// Username string `mapstructure:"user"` +// } +// +// Embedded Structs and Squashing +// +// Embedded structs are treated as if they're another field with that name. +// By default, the two structs below are equivalent when decoding with +// mapstructure: +// +// type Person struct { +// Name string +// } +// +// type Friend struct { +// Person +// } +// +// type Friend struct { +// Person Person +// } +// +// This would require an input that looks like below: +// +// map[string]interface{}{ +// "person": map[string]interface{}{"name": "alice"}, +// } +// +// If your "person" value is NOT nested, then you can append ",squash" to +// your tag value and mapstructure will treat it as if the embedded struct +// were part of the struct directly. Example: +// +// type Friend struct { +// Person `mapstructure:",squash"` +// } +// +// Now the following input would be accepted: +// +// map[string]interface{}{ +// "name": "alice", +// } +// +// DecoderConfig has a field that changes the behavior of mapstructure +// to always squash embedded structs. +// +// Remainder Values +// +// If there are any unmapped keys in the source value, mapstructure by +// default will silently ignore them. You can error by setting ErrorUnused +// in DecoderConfig. If you're using Metadata you can also maintain a slice +// of the unused keys. +// +// You can also use the ",remain" suffix on your tag to collect all unused +// values in a map. The field with this tag MUST be a map type and should +// probably be a "map[string]interface{}" or "map[interface{}]interface{}". +// See example below: +// +// type Friend struct { +// Name string +// Other map[string]interface{} `mapstructure:",remain"` +// } +// +// Given the input below, Other would be populated with the other +// values that weren't used (everything but "name"): +// +// map[string]interface{}{ +// "name": "bob", +// "address": "123 Maple St.", +// } +// +// Omit Empty Values +// +// When decoding from a struct to any other value, you may use the +// ",omitempty" suffix on your tag to omit that value if it equates to +// the zero value. The zero value of all types is specified in the Go +// specification. +// +// For example, the zero type of a numeric type is zero ("0"). If the struct +// field value is zero and a numeric type, the field is empty, and it won't +// be encoded into the destination type. +// +// type Source { +// Age int `mapstructure:",omitempty"` +// } +// +// Unexported fields +// +// Since unexported (private) struct fields cannot be set outside the package +// where they are defined, the decoder will simply skip them. +// +// For this output type definition: +// +// type Exported struct { +// private string // this unexported field will be skipped +// Public string +// } +// +// Using this map as input: +// +// map[string]interface{}{ +// "private": "I will be ignored", +// "Public": "I made it through!", +// } +// +// The following struct will be decoded: +// +// type Exported struct { +// private: "" // field is left with an empty string (zero value) +// Public: "I made it through!" +// } +// +// Other Configuration +// +// mapstructure is highly configurable. See the DecoderConfig struct +// for other features and options that are supported. package mapstructure import ( @@ -80,6 +220,14 @@ type DecoderConfig struct { // WeaklyTypedInput bool + // Squash will squash embedded structs. A squash tag may also be + // added to an individual struct field using a tag. For example: + // + // type Parent struct { + // Child `mapstructure:",squash"` + // } + Squash bool + // Metadata is the struct that will contain extra metadata about // the decoding. If this is nil, then no metadata will be tracked. Metadata *Metadata @@ -224,6 +372,17 @@ func (d *Decoder) Decode(input interface{}) error { // Decodes an unknown data type into a specific reflection value. func (d *Decoder) decode(name string, input interface{}, outVal reflect.Value) error { + var inputVal reflect.Value + if input != nil { + inputVal = reflect.ValueOf(input) + + // We need to check here if input is a typed nil. Typed nils won't + // match the "input == nil" below so we check that here. + if inputVal.Kind() == reflect.Ptr && inputVal.IsNil() { + input = nil + } + } + if input == nil { // If the data is nil, then we don't set anything, unless ZeroFields is set // to true. @@ -237,7 +396,6 @@ func (d *Decoder) decode(name string, input interface{}, outVal reflect.Value) e return nil } - inputVal := reflect.ValueOf(input) if !inputVal.IsValid() { // If the input value is invalid, then we just set the value // to be the zero value. @@ -260,8 +418,9 @@ func (d *Decoder) decode(name string, input interface{}, outVal reflect.Value) e } var err error - inputKind := getKind(outVal) - switch inputKind { + outputKind := getKind(outVal) + addMetaKey := true + switch outputKind { case reflect.Bool: err = d.decodeBool(name, input, outVal) case reflect.Interface: @@ -279,7 +438,7 @@ func (d *Decoder) decode(name string, input interface{}, outVal reflect.Value) e case reflect.Map: err = d.decodeMap(name, input, outVal) case reflect.Ptr: - err = d.decodePtr(name, input, outVal) + addMetaKey, err = d.decodePtr(name, input, outVal) case reflect.Slice: err = d.decodeSlice(name, input, outVal) case reflect.Array: @@ -288,12 +447,12 @@ func (d *Decoder) decode(name string, input interface{}, outVal reflect.Value) e err = d.decodeFunc(name, input, outVal) default: // If we reached this point then we weren't able to decode it - return fmt.Errorf("%s: unsupported type: %s", name, inputKind) + return fmt.Errorf("%s: unsupported type: %s", name, outputKind) } // If we reached here, then we successfully decoded SOMETHING, so // mark the key as used if we're tracking metainput. - if d.config.Metadata != nil && name != "" { + if addMetaKey && d.config.Metadata != nil && name != "" { d.config.Metadata.Keys = append(d.config.Metadata.Keys, name) } @@ -304,9 +463,45 @@ func (d *Decoder) decode(name string, input interface{}, outVal reflect.Value) e // value to "data" of that type. func (d *Decoder) decodeBasic(name string, data interface{}, val reflect.Value) error { if val.IsValid() && val.Elem().IsValid() { - return d.decode(name, data, val.Elem()) + elem := val.Elem() + + // If we can't address this element, then its not writable. Instead, + // we make a copy of the value (which is a pointer and therefore + // writable), decode into that, and replace the whole value. + copied := false + if !elem.CanAddr() { + copied = true + + // Make *T + copy := reflect.New(elem.Type()) + + // *T = elem + copy.Elem().Set(elem) + + // Set elem so we decode into it + elem = copy + } + + // Decode. If we have an error then return. We also return right + // away if we're not a copy because that means we decoded directly. + if err := d.decode(name, data, elem); err != nil || !copied { + return err + } + + // If we're a copy, we need to set te final result + val.Set(elem.Elem()) + return nil } + dataVal := reflect.ValueOf(data) + + // If the input data is a pointer, and the assigned type is the dereference + // of that exact pointer, then indirect it so that we can assign it. + // Example: *string to string + if dataVal.Kind() == reflect.Ptr && dataVal.Type().Elem() == val.Type() { + dataVal = reflect.Indirect(dataVal) + } + if !dataVal.IsValid() { dataVal = reflect.Zero(val.Type()) } @@ -323,7 +518,7 @@ func (d *Decoder) decodeBasic(name string, data interface{}, val reflect.Value) } func (d *Decoder) decodeString(name string, data interface{}, val reflect.Value) error { - dataVal := reflect.ValueOf(data) + dataVal := reflect.Indirect(reflect.ValueOf(data)) dataKind := getKind(dataVal) converted := true @@ -375,7 +570,7 @@ func (d *Decoder) decodeString(name string, data interface{}, val reflect.Value) } func (d *Decoder) decodeInt(name string, data interface{}, val reflect.Value) error { - dataVal := reflect.ValueOf(data) + dataVal := reflect.Indirect(reflect.ValueOf(data)) dataKind := getKind(dataVal) dataType := dataVal.Type() @@ -417,8 +612,9 @@ func (d *Decoder) decodeInt(name string, data interface{}, val reflect.Value) er } func (d *Decoder) decodeUint(name string, data interface{}, val reflect.Value) error { - dataVal := reflect.ValueOf(data) + dataVal := reflect.Indirect(reflect.ValueOf(data)) dataKind := getKind(dataVal) + dataType := dataVal.Type() switch { case dataKind == reflect.Int: @@ -450,6 +646,18 @@ func (d *Decoder) decodeUint(name string, data interface{}, val reflect.Value) e } else { return fmt.Errorf("cannot parse '%s' as uint: %s", name, err) } + case dataType.PkgPath() == "encoding/json" && dataType.Name() == "Number": + jn := data.(json.Number) + i, err := jn.Int64() + if err != nil { + return fmt.Errorf( + "error decoding json.Number into %s: %s", name, err) + } + if i < 0 && !d.config.WeaklyTypedInput { + return fmt.Errorf("cannot parse '%s', %d overflows uint", + name, i) + } + val.SetUint(uint64(i)) default: return fmt.Errorf( "'%s' expected type '%s', got unconvertible type '%s'", @@ -460,7 +668,7 @@ func (d *Decoder) decodeUint(name string, data interface{}, val reflect.Value) e } func (d *Decoder) decodeBool(name string, data interface{}, val reflect.Value) error { - dataVal := reflect.ValueOf(data) + dataVal := reflect.Indirect(reflect.ValueOf(data)) dataKind := getKind(dataVal) switch { @@ -491,7 +699,7 @@ func (d *Decoder) decodeBool(name string, data interface{}, val reflect.Value) e } func (d *Decoder) decodeFloat(name string, data interface{}, val reflect.Value) error { - dataVal := reflect.ValueOf(data) + dataVal := reflect.Indirect(reflect.ValueOf(data)) dataKind := getKind(dataVal) dataType := dataVal.Type() @@ -595,6 +803,20 @@ func (d *Decoder) decodeMapFromMap(name string, dataVal reflect.Value, val refle // Accumulate errors errors := make([]string, 0) + // If the input data is empty, then we just match what the input data is. + if dataVal.Len() == 0 { + if dataVal.IsNil() { + if !val.IsNil() { + val.Set(dataVal) + } + } else { + // Set to empty allocated value + val.Set(valMap) + } + + return nil + } + for _, k := range dataVal.MapKeys() { fieldName := fmt.Sprintf("%s[%s]", name, k) @@ -645,27 +867,31 @@ func (d *Decoder) decodeMapFromStruct(name string, dataVal reflect.Value, val re } tagValue := f.Tag.Get(d.config.TagName) - tagParts := strings.Split(tagValue, ",") - - // Determine the name of the key in the map keyName := f.Name - if tagParts[0] != "" { - if tagParts[0] == "-" { + + // If Squash is set in the config, we squash the field down. + squash := d.config.Squash && v.Kind() == reflect.Struct && f.Anonymous + // Determine the name of the key in the map + if index := strings.Index(tagValue, ","); index != -1 { + if tagValue[:index] == "-" { continue } - keyName = tagParts[0] - } - - // If "squash" is specified in the tag, we squash the field down. - squash := false - for _, tag := range tagParts[1:] { - if tag == "squash" { - squash = true - break + // If "omitempty" is specified in the tag, it ignores empty values. + if strings.Index(tagValue[index+1:], "omitempty") != -1 && isEmptyValue(v) { + continue } - } - if squash && v.Kind() != reflect.Struct { - return fmt.Errorf("cannot squash non-struct type '%s'", v.Type()) + + // If "squash" is specified in the tag, we squash the field down. + squash = !squash && strings.Index(tagValue[index+1:], "squash") != -1 + if squash && v.Kind() != reflect.Struct { + return fmt.Errorf("cannot squash non-struct type '%s'", v.Type()) + } + keyName = tagValue[:index] + } else if len(tagValue) > 0 { + if tagValue == "-" { + continue + } + keyName = tagValue } switch v.Kind() { @@ -705,12 +931,34 @@ func (d *Decoder) decodeMapFromStruct(name string, dataVal reflect.Value, val re return nil } -func (d *Decoder) decodePtr(name string, data interface{}, val reflect.Value) error { +func (d *Decoder) decodePtr(name string, data interface{}, val reflect.Value) (bool, error) { + // If the input data is nil, then we want to just set the output + // pointer to be nil as well. + isNil := data == nil + if !isNil { + switch v := reflect.Indirect(reflect.ValueOf(data)); v.Kind() { + case reflect.Chan, + reflect.Func, + reflect.Interface, + reflect.Map, + reflect.Ptr, + reflect.Slice: + isNil = v.IsNil() + } + } + if isNil { + if !val.IsNil() && val.CanSet() { + nilValue := reflect.New(val.Type()).Elem() + val.Set(nilValue) + } + + return true, nil + } + // Create an element of the concrete (non pointer) type and decode // into that. Then set the value of the pointer to this type. valType := val.Type() valElemType := valType.Elem() - if val.CanSet() { realVal := val if realVal.IsNil() || d.config.ZeroFields { @@ -718,16 +966,16 @@ func (d *Decoder) decodePtr(name string, data interface{}, val reflect.Value) er } if err := d.decode(name, data, reflect.Indirect(realVal)); err != nil { - return err + return false, err } val.Set(realVal) } else { if err := d.decode(name, data, reflect.Indirect(val)); err != nil { - return err + return false, err } } - return nil + return false, nil } func (d *Decoder) decodeFunc(name string, data interface{}, val reflect.Value) error { @@ -750,35 +998,45 @@ func (d *Decoder) decodeSlice(name string, data interface{}, val reflect.Value) valElemType := valType.Elem() sliceType := reflect.SliceOf(valElemType) - valSlice := val - if valSlice.IsNil() || d.config.ZeroFields { - // Check input type - if dataValKind != reflect.Array && dataValKind != reflect.Slice { - if d.config.WeaklyTypedInput { - switch { - // Empty maps turn into empty slices - case dataValKind == reflect.Map: - if dataVal.Len() == 0 { - val.Set(reflect.MakeSlice(sliceType, 0, 0)) - return nil - } - // Create slice of maps of other sizes - return d.decodeSlice(name, []interface{}{data}, val) + // If we have a non array/slice type then we first attempt to convert. + if dataValKind != reflect.Array && dataValKind != reflect.Slice { + if d.config.WeaklyTypedInput { + switch { + // Slice and array we use the normal logic + case dataValKind == reflect.Slice, dataValKind == reflect.Array: + break - case dataValKind == reflect.String && valElemType.Kind() == reflect.Uint8: - return d.decodeSlice(name, []byte(dataVal.String()), val) - // All other types we try to convert to the slice type - // and "lift" it into it. i.e. a string becomes a string slice. - default: - // Just re-try this function with data as a slice. - return d.decodeSlice(name, []interface{}{data}, val) + // Empty maps turn into empty slices + case dataValKind == reflect.Map: + if dataVal.Len() == 0 { + val.Set(reflect.MakeSlice(sliceType, 0, 0)) + return nil } - } - return fmt.Errorf( - "'%s': source data must be an array or slice, got %s", name, dataValKind) + // Create slice of maps of other sizes + return d.decodeSlice(name, []interface{}{data}, val) + case dataValKind == reflect.String && valElemType.Kind() == reflect.Uint8: + return d.decodeSlice(name, []byte(dataVal.String()), val) + + // All other types we try to convert to the slice type + // and "lift" it into it. i.e. a string becomes a string slice. + default: + // Just re-try this function with data as a slice. + return d.decodeSlice(name, []interface{}{data}, val) + } } + return fmt.Errorf( + "'%s': source data must be an array or slice, got %s", name, dataValKind) + } + + // If the input value is nil, then don't allocate since empty != nil + if dataVal.IsNil() { + return nil + } + + valSlice := val + if valSlice.IsNil() || d.config.ZeroFields { // Make a new slice to hold our result, same size as the original data. valSlice = reflect.MakeSlice(sliceType, dataVal.Len(), dataVal.Len()) } @@ -888,10 +1146,29 @@ func (d *Decoder) decodeStruct(name string, data interface{}, val reflect.Value) } dataValKind := dataVal.Kind() - if dataValKind != reflect.Map { - return fmt.Errorf("'%s' expected a map, got '%s'", name, dataValKind) - } + switch dataValKind { + case reflect.Map: + return d.decodeStructFromMap(name, dataVal, val) + case reflect.Struct: + // Not the most efficient way to do this but we can optimize later if + // we want to. To convert from struct to struct we go to map first + // as an intermediary. + m := make(map[string]interface{}) + mval := reflect.Indirect(reflect.ValueOf(&m)) + if err := d.decodeMapFromStruct(name, dataVal, mval, mval); err != nil { + return err + } + + result := d.decodeStructFromMap(name, mval, val) + return result + + default: + return fmt.Errorf("'%s' expected a map, got '%s'", name, dataVal.Kind()) + } +} + +func (d *Decoder) decodeStructFromMap(name string, dataVal, val reflect.Value) error { dataValType := dataVal.Type() if kind := dataValType.Key().Kind(); kind != reflect.String && kind != reflect.Interface { return fmt.Errorf( @@ -920,6 +1197,11 @@ func (d *Decoder) decodeStruct(name string, data interface{}, val reflect.Value) field reflect.StructField val reflect.Value } + + // remainField is set to a valid field set with the "remain" tag if + // we are keeping track of remaining values. + var remainField *field + fields := []field{} for len(structs) > 0 { structVal := structs[0] @@ -932,13 +1214,21 @@ func (d *Decoder) decodeStruct(name string, data interface{}, val reflect.Value) fieldKind := fieldType.Type.Kind() // If "squash" is specified in the tag, we squash the field down. - squash := false + squash := d.config.Squash && fieldKind == reflect.Struct && fieldType.Anonymous + remain := false + + // We always parse the tags cause we're looking for other tags too tagParts := strings.Split(fieldType.Tag.Get(d.config.TagName), ",") for _, tag := range tagParts[1:] { if tag == "squash" { squash = true break } + + if tag == "remain" { + remain = true + break + } } if squash { @@ -951,8 +1241,13 @@ func (d *Decoder) decodeStruct(name string, data interface{}, val reflect.Value) continue } - // Normal struct field, store it away - fields = append(fields, field{fieldType, structVal.Field(i)}) + // Build our field + if remain { + remainField = &field{fieldType, structVal.Field(i)} + } else { + // Normal struct field, store it away + fields = append(fields, field{fieldType, structVal.Field(i)}) + } } } @@ -993,9 +1288,6 @@ func (d *Decoder) decodeStruct(name string, data interface{}, val reflect.Value) } } - // Delete the key we're using from the unused map so we stop tracking - delete(dataValKeysUnused, rawMapKey.Interface()) - if !fieldValue.IsValid() { // This should never happen panic("field is not valid") @@ -1007,6 +1299,9 @@ func (d *Decoder) decodeStruct(name string, data interface{}, val reflect.Value) continue } + // Delete the key we're using from the unused map so we stop tracking + delete(dataValKeysUnused, rawMapKey.Interface()) + // If the name is empty string, then we're at the root, and we // don't dot-join the fields. if name != "" { @@ -1018,6 +1313,25 @@ func (d *Decoder) decodeStruct(name string, data interface{}, val reflect.Value) } } + // If we have a "remain"-tagged field and we have unused keys then + // we put the unused keys directly into the remain field. + if remainField != nil && len(dataValKeysUnused) > 0 { + // Build a map of only the unused values + remain := map[interface{}]interface{}{} + for key := range dataValKeysUnused { + remain[key] = dataVal.MapIndex(reflect.ValueOf(key)).Interface() + } + + // Decode it as-if we were just decoding this map onto our map. + if err := d.decodeMap(name, remain, remainField.val); err != nil { + errors = appendErrors(errors, err) + } + + // Set the map to nil so we have none so that the next check will + // not error (ErrorUnused) + dataValKeysUnused = nil + } + if d.config.ErrorUnused && len(dataValKeysUnused) > 0 { keys := make([]string, 0, len(dataValKeysUnused)) for rawKey := range dataValKeysUnused { @@ -1048,6 +1362,24 @@ func (d *Decoder) decodeStruct(name string, data interface{}, val reflect.Value) return nil } +func isEmptyValue(v reflect.Value) bool { + switch getKind(v) { + case reflect.Array, reflect.Map, reflect.Slice, reflect.String: + return v.Len() == 0 + case reflect.Bool: + return !v.Bool() + case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: + return v.Int() == 0 + case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: + return v.Uint() == 0 + case reflect.Float32, reflect.Float64: + return v.Float() == 0 + case reflect.Interface, reflect.Ptr: + return v.IsNil() + } + return false +} + func getKind(val reflect.Value) reflect.Kind { kind := val.Kind()