rclone/fs/bits.go

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package fs
import (
"encoding/json"
"fmt"
"strings"
)
// Bits is an option which can be any combination of the Choices.
//
// Suggested implementation is something like this:
//
// type bits = Bits[bitsChoices]
//
// const (
// bitA bits = 1 << iota
// bitB
// bitC
// )
//
// type bitsChoices struct{}
//
// func (bitsChoices) Choices() []BitsChoicesInfo {
// return []BitsChoicesInfo{
2023-10-06 18:30:40 +00:00
// {Bit: uint64(0), Name: "OFF"}, // Optional Off value - "" if not defined
// {Bit: uint64(bitA), Name: "A"},
// {Bit: uint64(bitB), Name: "B"},
// {Bit: uint64(bitC), Name: "C"},
// }
// }
type Bits[C BitsChoices] uint64
// BitsChoicesInfo should be returned from the Choices method
type BitsChoicesInfo struct {
Bit uint64
Name string
}
// BitsChoices returns the valid choices for this type.
//
// It must work on the zero value.
//
// Note that when using this in an Option the ExampleBitsChoices will be
// filled in automatically.
type BitsChoices interface {
// Choices returns the valid choices for each bit of this type
Choices() []BitsChoicesInfo
}
// String turns a Bits into a string
func (b Bits[C]) String() string {
var out []string
choices := b.Choices()
// Return an off value if set
if b == 0 {
for _, info := range choices {
if info.Bit == 0 {
return info.Name
}
}
}
for _, info := range choices {
if info.Bit == 0 {
continue
}
if b&Bits[C](info.Bit) != 0 {
out = append(out, info.Name)
b &^= Bits[C](info.Bit)
}
}
if b != 0 {
out = append(out, fmt.Sprintf("Unknown-0x%X", int(b)))
}
return strings.Join(out, ",")
}
// Help returns a comma separated list of all possible bits.
func (b Bits[C]) Help() string {
var out []string
for _, info := range b.Choices() {
out = append(out, info.Name)
}
return strings.Join(out, ", ")
}
// Choices returns the possible values of the Bits.
func (b Bits[C]) Choices() []BitsChoicesInfo {
var c C
return c.Choices()
}
// Set a Bits as a comma separated list of flags
func (b *Bits[C]) Set(s string) error {
var flags Bits[C]
parts := strings.Split(s, ",")
choices := b.Choices()
for _, part := range parts {
found := false
part = strings.TrimSpace(part)
if part == "" {
continue
}
for _, info := range choices {
if strings.EqualFold(info.Name, part) {
found = true
flags |= Bits[C](info.Bit)
}
}
if !found {
return fmt.Errorf("invalid choice %q from: %s", part, b.Help())
}
}
*b = flags
return nil
}
// IsSet returns true all the bits in mask are set in b.
func (b Bits[C]) IsSet(mask Bits[C]) bool {
return (b & mask) == mask
}
// Type of the value.
//
// If C has a Type() string method then it will be used instead.
func (b Bits[C]) Type() string {
var c C
if do, ok := any(c).(typer); ok {
return do.Type()
}
return "Bits"
}
// Scan implements the fmt.Scanner interface
func (b *Bits[C]) Scan(s fmt.ScanState, ch rune) error {
token, err := s.Token(true, nil)
if err != nil {
return err
}
return b.Set(string(token))
}
// UnmarshalJSON makes sure the value can be parsed as a string or integer in JSON
func (b *Bits[C]) UnmarshalJSON(in []byte) error {
return UnmarshalJSONFlag(in, b, func(i int64) error {
*b = (Bits[C])(i)
return nil
})
}
// MarshalJSON encodes it as string
func (b *Bits[C]) MarshalJSON() ([]byte, error) {
return json.Marshal(b.String())
}