rclone/fs/sizesuffix.go

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package fs
// SizeSuffix is parsed by flag with K/M/G binary suffixes
import (
"encoding/json"
"errors"
"fmt"
"math"
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"sort"
"strconv"
"strings"
)
// SizeSuffix is an int64 with a friendly way of printing setting
type SizeSuffix int64
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// Common multipliers for SizeSuffix
const (
SizeSuffixBase SizeSuffix = 1 << (iota * 10)
Kibi
Mebi
Gibi
Tebi
Pebi
Exbi
)
const (
// SizeSuffixMax is the largest SizeSuffix multiplier
SizeSuffixMax = Exbi
// SizeSuffixMaxValue is the largest value that can be used to create SizeSuffix
SizeSuffixMaxValue = math.MaxInt64
// SizeSuffixMinValue is the smallest value that can be used to create SizeSuffix
SizeSuffixMinValue = math.MinInt64
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)
// Turn SizeSuffix into a string and a suffix
func (x SizeSuffix) string() (string, string) {
scaled := float64(0)
suffix := ""
switch {
case x < 0:
return "off", ""
case x == 0:
return "0", ""
case x < Kibi:
scaled = float64(x)
suffix = ""
case x < Mebi:
scaled = float64(x) / float64(Kibi)
suffix = "Ki"
case x < Gibi:
scaled = float64(x) / float64(Mebi)
suffix = "Mi"
case x < Tebi:
scaled = float64(x) / float64(Gibi)
suffix = "Gi"
case x < Pebi:
scaled = float64(x) / float64(Tebi)
suffix = "Ti"
case x < Exbi:
scaled = float64(x) / float64(Pebi)
suffix = "Pi"
default:
scaled = float64(x) / float64(Exbi)
suffix = "Ei"
}
if math.Floor(scaled) == scaled {
return fmt.Sprintf("%.0f", scaled), suffix
}
return fmt.Sprintf("%.3f", scaled), suffix
}
// String turns SizeSuffix into a string
func (x SizeSuffix) String() string {
val, suffix := x.string()
return val + suffix
}
// Unit turns SizeSuffix into a string with a unit
func (x SizeSuffix) unit(unit string) string {
val, suffix := x.string()
if val == "off" {
return val
}
return val + " " + suffix + unit
}
// BitUnit turns SizeSuffix into a string with bit unit
func (x SizeSuffix) BitUnit() string {
return x.unit("bit")
}
// BitRateUnit turns SizeSuffix into a string with bit rate unit
func (x SizeSuffix) BitRateUnit() string {
return x.unit("bit/s")
}
// ByteUnit turns SizeSuffix into a string with byte unit
func (x SizeSuffix) ByteUnit() string {
return x.unit("B")
}
// ByteRateUnit turns SizeSuffix into a string with byte rate unit
func (x SizeSuffix) ByteRateUnit() string {
return x.unit("B/s")
}
func (x *SizeSuffix) multiplierFromSymbol(s byte) (found bool, multiplier float64) {
switch s {
case 'k', 'K':
return true, float64(Kibi)
case 'm', 'M':
return true, float64(Mebi)
case 'g', 'G':
return true, float64(Gibi)
case 't', 'T':
return true, float64(Tebi)
case 'p', 'P':
return true, float64(Pebi)
case 'e', 'E':
return true, float64(Exbi)
default:
return false, float64(SizeSuffixBase)
}
}
// Set a SizeSuffix
func (x *SizeSuffix) Set(s string) error {
if len(s) == 0 {
return errors.New("empty string")
}
if strings.ToLower(s) == "off" {
*x = -1
return nil
}
suffix := s[len(s)-1]
suffixLen := 1
multiplierFound := false
var multiplier float64
switch suffix {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '.':
suffixLen = 0
multiplier = float64(Kibi)
case 'b', 'B':
if len(s) > 2 && s[len(s)-2] == 'i' {
suffix = s[len(s)-3]
suffixLen = 3
if multiplierFound, multiplier = x.multiplierFromSymbol(suffix); !multiplierFound {
return fmt.Errorf("bad suffix %q", suffix)
}
// Could also support SI form MB, and treat it equivalent to MiB, but perhaps better to reserve it for CountSuffix?
//} else if len(s) > 1 {
// suffix = s[len(s)-2]
// if multiplierFound, multiplier = x.multiplierFromSymbol(suffix); multiplierFound {
// suffixLen = 2
// }
//}
} else {
multiplier = float64(SizeSuffixBase)
}
case 'i', 'I':
if len(s) > 1 {
suffix = s[len(s)-2]
suffixLen = 2
multiplierFound, multiplier = x.multiplierFromSymbol(suffix)
}
if !multiplierFound {
return fmt.Errorf("bad suffix %q", suffix)
}
default:
if multiplierFound, multiplier = x.multiplierFromSymbol(suffix); !multiplierFound {
return fmt.Errorf("bad suffix %q", suffix)
}
}
s = s[:len(s)-suffixLen]
value, err := strconv.ParseFloat(s, 64)
if err != nil {
return err
}
if value < 0 {
return fmt.Errorf("size can't be negative %q", s)
}
value *= multiplier
*x = SizeSuffix(value)
return nil
}
// Type of the value
func (x SizeSuffix) Type() string {
return "SizeSuffix"
}
// Scan implements the fmt.Scanner interface
func (x *SizeSuffix) Scan(s fmt.ScanState, ch rune) error {
token, err := s.Token(true, nil)
if err != nil {
return err
}
return x.Set(string(token))
}
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// SizeSuffixList is a slice SizeSuffix values
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type SizeSuffixList []SizeSuffix
func (l SizeSuffixList) Len() int { return len(l) }
func (l SizeSuffixList) Swap(i, j int) { l[i], l[j] = l[j], l[i] }
func (l SizeSuffixList) Less(i, j int) bool { return l[i] < l[j] }
// Sort sorts the list
func (l SizeSuffixList) Sort() {
sort.Sort(l)
}
// UnmarshalJSONFlag unmarshals a JSON input for a flag. If the input
// is a string then it calls the Set method on the flag otherwise it
// calls the setInt function with a parsed int64.
func UnmarshalJSONFlag(in []byte, x interface{ Set(string) error }, setInt func(int64) error) error {
// Try to parse as string first
var s string
err := json.Unmarshal(in, &s)
if err == nil {
return x.Set(s)
}
// If that fails parse as integer
var i int64
err = json.Unmarshal(in, &i)
if err != nil {
return err
}
return setInt(i)
}
// UnmarshalJSON makes sure the value can be parsed as a string or integer in JSON
func (x *SizeSuffix) UnmarshalJSON(in []byte) error {
return UnmarshalJSONFlag(in, x, func(i int64) error {
*x = SizeSuffix(i)
return nil
})
}