iodine is part of minio now

This commit is contained in:
Harshavardhana 2015-04-08 18:02:03 -07:00
parent 879e428596
commit 38155e86ac
46 changed files with 1579 additions and 26 deletions

8
Godeps/Godeps.json generated
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@ -5,6 +5,10 @@
"./..."
],
"Deps": [
{
"ImportPath": "github.com/dustin/go-humanize",
"Rev": "8cc1aaa2d955ee82833337cfb10babc42be6bce6"
},
{
"ImportPath": "github.com/gorilla/context",
"Rev": "50c25fb3b2b3b3cc724e9b6ac75fb44b3bccd0da"
@ -22,10 +26,6 @@
"Comment": "1.2.0-102-gecb385c",
"Rev": "ecb385c3fefd53678e3b6beba6a608fb7c8dfac1"
},
{
"ImportPath": "github.com/minio-io/iodine",
"Rev": "9a63d02ce3934e159d00732f15e096e4f86a6dbb"
},
{
"ImportPath": "github.com/stretchr/objx",
"Rev": "cbeaeb16a013161a98496fad62933b1d21786672"

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#*
*.[568]
*.a
*~
[568].out
_*

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Copyright (c) 2005-2008 Dustin Sallings <dustin@spy.net>
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
<http://www.opensource.org/licenses/mit-license.php>

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# Humane Units
Just a few functions for helping humanize times and sizes.
`go get` it as `github.com/dustin/go-humanize`, import it as
`"github.com/dustin/go-humanize"`, use it as `humanize`
## Sizes
This lets you take numbers like `82854982` and convert them to useful
strings like, `83MB` or `79MiB` (whichever you prefer).
Example:
fmt.Printf("That file is %s.", humanize.Bytes(82854982))
## Times
This lets you take a `time.Time` and spit it out in relative terms.
For example, `12 seconds ago` or `3 days from now`.
Example:
fmt.Printf("This was touched %s", humanize.Time(someTimeInstance))
Thanks to Kyle Lemons for the time implementation from an IRC
conversation one day. It's pretty neat.
## Ordinals
From a [mailing list discussion][odisc] where a user wanted to be able
to label ordinals.
0 -> 0th
1 -> 1st
2 -> 2nd
3 -> 3rd
4 -> 4th
[...]
Example:
fmt.Printf("You're my %s best friend.", humanize.Ordinal(193))
## Commas
Want to shove commas into numbers? Be my guest.
0 -> 0
100 -> 100
1000 -> 1,000
1000000000 -> 1,000,000,000
-100000 -> -100,000
Example:
fmt.Printf("You owe $%s.\n", humanize.Comma(6582491))
## Ftoa
Nicer float64 formatter that removes trailing zeros.
fmt.Printf("%f", 2.24) // 2.240000
fmt.Printf("%s", humanize.Ftoa(2.24)) // 2.24
fmt.Printf("%f", 2.0) // 2.000000
fmt.Printf("%s", humanize.Ftoa(2.0)) // 2
## SI notation
Format numbers with [SI notation][sinotation].
Example:
humanize.SI(0.00000000223, "M") // 2.23nM
[odisc]: https://groups.google.com/d/topic/golang-nuts/l8NhI74jl-4/discussion
[sinotation]: http://en.wikipedia.org/wiki/Metric_prefix

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package humanize
import (
"math/big"
)
// order of magnitude (to a max order)
func oomm(n, b *big.Int, maxmag int) (float64, int) {
mag := 0
m := &big.Int{}
for n.Cmp(b) >= 0 {
n.DivMod(n, b, m)
mag++
if mag == maxmag && maxmag >= 0 {
break
}
}
return float64(n.Int64()) + (float64(m.Int64()) / float64(b.Int64())), mag
}
// total order of magnitude
// (same as above, but with no upper limit)
func oom(n, b *big.Int) (float64, int) {
mag := 0
m := &big.Int{}
for n.Cmp(b) >= 0 {
n.DivMod(n, b, m)
mag++
}
return float64(n.Int64()) + (float64(m.Int64()) / float64(b.Int64())), mag
}

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package humanize
import (
"fmt"
"math/big"
"strings"
"unicode"
)
var (
bigIECExp = big.NewInt(1024)
// BigByte is one byte in bit.Ints
BigByte = big.NewInt(1)
// BigKiByte is 1,024 bytes in bit.Ints
BigKiByte = (&big.Int{}).Mul(BigByte, bigIECExp)
// BigMiByte is 1,024 k bytes in bit.Ints
BigMiByte = (&big.Int{}).Mul(BigKiByte, bigIECExp)
// BigGiByte is 1,024 m bytes in bit.Ints
BigGiByte = (&big.Int{}).Mul(BigMiByte, bigIECExp)
// BigTiByte is 1,024 g bytes in bit.Ints
BigTiByte = (&big.Int{}).Mul(BigGiByte, bigIECExp)
// BigPiByte is 1,024 t bytes in bit.Ints
BigPiByte = (&big.Int{}).Mul(BigTiByte, bigIECExp)
// BigEiByte is 1,024 p bytes in bit.Ints
BigEiByte = (&big.Int{}).Mul(BigPiByte, bigIECExp)
// BigZiByte is 1,024 e bytes in bit.Ints
BigZiByte = (&big.Int{}).Mul(BigEiByte, bigIECExp)
// BigYiByte is 1,024 z bytes in bit.Ints
BigYiByte = (&big.Int{}).Mul(BigZiByte, bigIECExp)
)
var (
bigSIExp = big.NewInt(1000)
// BigSIByte is one SI byte in big.Ints
BigSIByte = big.NewInt(1)
// BigKByte is 1,000 SI bytes in big.Ints
BigKByte = (&big.Int{}).Mul(BigSIByte, bigSIExp)
// BigMByte is 1,000 SI k bytes in big.Ints
BigMByte = (&big.Int{}).Mul(BigKByte, bigSIExp)
// BigGByte is 1,000 SI m bytes in big.Ints
BigGByte = (&big.Int{}).Mul(BigMByte, bigSIExp)
// BigTByte is 1,000 SI g bytes in big.Ints
BigTByte = (&big.Int{}).Mul(BigGByte, bigSIExp)
// BigPByte is 1,000 SI t bytes in big.Ints
BigPByte = (&big.Int{}).Mul(BigTByte, bigSIExp)
// BigEByte is 1,000 SI p bytes in big.Ints
BigEByte = (&big.Int{}).Mul(BigPByte, bigSIExp)
// BigZByte is 1,000 SI e bytes in big.Ints
BigZByte = (&big.Int{}).Mul(BigEByte, bigSIExp)
// BigYByte is 1,000 SI z bytes in big.Ints
BigYByte = (&big.Int{}).Mul(BigZByte, bigSIExp)
)
var bigBytesSizeTable = map[string]*big.Int{
"b": BigByte,
"kib": BigKiByte,
"kb": BigKByte,
"mib": BigMiByte,
"mb": BigMByte,
"gib": BigGiByte,
"gb": BigGByte,
"tib": BigTiByte,
"tb": BigTByte,
"pib": BigPiByte,
"pb": BigPByte,
"eib": BigEiByte,
"eb": BigEByte,
"zib": BigZiByte,
"zb": BigZByte,
"yib": BigYiByte,
"yb": BigYByte,
// Without suffix
"": BigByte,
"ki": BigKiByte,
"k": BigKByte,
"mi": BigMiByte,
"m": BigMByte,
"gi": BigGiByte,
"g": BigGByte,
"ti": BigTiByte,
"t": BigTByte,
"pi": BigPiByte,
"p": BigPByte,
"ei": BigEiByte,
"e": BigEByte,
"z": BigZByte,
"zi": BigZiByte,
"y": BigYByte,
"yi": BigYiByte,
}
var ten = big.NewInt(10)
func humanateBigBytes(s, base *big.Int, sizes []string) string {
if s.Cmp(ten) < 0 {
return fmt.Sprintf("%dB", s)
}
c := (&big.Int{}).Set(s)
val, mag := oomm(c, base, len(sizes)-1)
suffix := sizes[mag]
f := "%.0f%s"
if val < 10 {
f = "%.1f%s"
}
return fmt.Sprintf(f, val, suffix)
}
// BigBytes produces a human readable representation of an SI size.
//
// See also: ParseBigBytes.
//
// BigBytes(82854982) -> 83MB
func BigBytes(s *big.Int) string {
sizes := []string{"B", "KB", "MB", "GB", "TB", "PB", "EB", "ZB", "YB"}
return humanateBigBytes(s, bigSIExp, sizes)
}
// BigIBytes produces a human readable representation of an IEC size.
//
// See also: ParseBigBytes.
//
// BigIBytes(82854982) -> 79MiB
func BigIBytes(s *big.Int) string {
sizes := []string{"B", "KiB", "MiB", "GiB", "TiB", "PiB", "EiB", "ZiB", "YiB"}
return humanateBigBytes(s, bigIECExp, sizes)
}
// ParseBigBytes parses a string representation of bytes into the number
// of bytes it represents.
//
// See also: BigBytes, BigIBytes.
//
// ParseBigBytes("42MB") -> 42000000, nil
// ParseBigBytes("42mib") -> 44040192, nil
func ParseBigBytes(s string) (*big.Int, error) {
lastDigit := 0
for _, r := range s {
if !(unicode.IsDigit(r) || r == '.') {
break
}
lastDigit++
}
val := &big.Rat{}
_, err := fmt.Sscanf(s[:lastDigit], "%f", val)
if err != nil {
return nil, err
}
extra := strings.ToLower(strings.TrimSpace(s[lastDigit:]))
if m, ok := bigBytesSizeTable[extra]; ok {
mv := (&big.Rat{}).SetInt(m)
val.Mul(val, mv)
rv := &big.Int{}
rv.Div(val.Num(), val.Denom())
return rv, nil
}
return nil, fmt.Errorf("unhandled size name: %v", extra)
}

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package humanize
import (
"math/big"
"testing"
)
func TestBigByteParsing(t *testing.T) {
tests := []struct {
in string
exp uint64
}{
{"42", 42},
{"42MB", 42000000},
{"42MiB", 44040192},
{"42mb", 42000000},
{"42mib", 44040192},
{"42MIB", 44040192},
{"42 MB", 42000000},
{"42 MiB", 44040192},
{"42 mb", 42000000},
{"42 mib", 44040192},
{"42 MIB", 44040192},
{"42.5MB", 42500000},
{"42.5MiB", 44564480},
{"42.5 MB", 42500000},
{"42.5 MiB", 44564480},
// No need to say B
{"42M", 42000000},
{"42Mi", 44040192},
{"42m", 42000000},
{"42mi", 44040192},
{"42MI", 44040192},
{"42 M", 42000000},
{"42 Mi", 44040192},
{"42 m", 42000000},
{"42 mi", 44040192},
{"42 MI", 44040192},
{"42.5M", 42500000},
{"42.5Mi", 44564480},
{"42.5 M", 42500000},
{"42.5 Mi", 44564480},
// Large testing, breaks when too much larger than
// this.
{"12.5 EB", uint64(12.5 * float64(EByte))},
{"12.5 E", uint64(12.5 * float64(EByte))},
{"12.5 EiB", uint64(12.5 * float64(EiByte))},
}
for _, p := range tests {
got, err := ParseBigBytes(p.in)
if err != nil {
t.Errorf("Couldn't parse %v: %v", p.in, err)
} else {
if got.Uint64() != p.exp {
t.Errorf("Expected %v for %v, got %v",
p.exp, p.in, got)
}
}
}
}
func TestBigByteErrors(t *testing.T) {
got, err := ParseBigBytes("84 JB")
if err == nil {
t.Errorf("Expected error, got %v", got)
}
got, err = ParseBigBytes("")
if err == nil {
t.Errorf("Expected error parsing nothing")
}
}
func bbyte(in uint64) string {
return BigBytes((&big.Int{}).SetUint64(in))
}
func bibyte(in uint64) string {
return BigIBytes((&big.Int{}).SetUint64(in))
}
func TestBigBytes(t *testing.T) {
testList{
{"bytes(0)", bbyte(0), "0B"},
{"bytes(1)", bbyte(1), "1B"},
{"bytes(803)", bbyte(803), "803B"},
{"bytes(999)", bbyte(999), "999B"},
{"bytes(1024)", bbyte(1024), "1.0KB"},
{"bytes(1MB - 1)", bbyte(MByte - Byte), "1000KB"},
{"bytes(1MB)", bbyte(1024 * 1024), "1.0MB"},
{"bytes(1GB - 1K)", bbyte(GByte - KByte), "1000MB"},
{"bytes(1GB)", bbyte(GByte), "1.0GB"},
{"bytes(1TB - 1M)", bbyte(TByte - MByte), "1000GB"},
{"bytes(1TB)", bbyte(TByte), "1.0TB"},
{"bytes(1PB - 1T)", bbyte(PByte - TByte), "999TB"},
{"bytes(1PB)", bbyte(PByte), "1.0PB"},
{"bytes(1PB - 1T)", bbyte(EByte - PByte), "999PB"},
{"bytes(1EB)", bbyte(EByte), "1.0EB"},
// Overflows.
// {"bytes(1EB - 1P)", Bytes((KByte*EByte)-PByte), "1023EB"},
{"bytes(0)", bibyte(0), "0B"},
{"bytes(1)", bibyte(1), "1B"},
{"bytes(803)", bibyte(803), "803B"},
{"bytes(1023)", bibyte(1023), "1023B"},
{"bytes(1024)", bibyte(1024), "1.0KiB"},
{"bytes(1MB - 1)", bibyte(MiByte - IByte), "1024KiB"},
{"bytes(1MB)", bibyte(1024 * 1024), "1.0MiB"},
{"bytes(1GB - 1K)", bibyte(GiByte - KiByte), "1024MiB"},
{"bytes(1GB)", bibyte(GiByte), "1.0GiB"},
{"bytes(1TB - 1M)", bibyte(TiByte - MiByte), "1024GiB"},
{"bytes(1TB)", bibyte(TiByte), "1.0TiB"},
{"bytes(1PB - 1T)", bibyte(PiByte - TiByte), "1023TiB"},
{"bytes(1PB)", bibyte(PiByte), "1.0PiB"},
{"bytes(1PB - 1T)", bibyte(EiByte - PiByte), "1023PiB"},
{"bytes(1EiB)", bibyte(EiByte), "1.0EiB"},
// Overflows.
// {"bytes(1EB - 1P)", bibyte((KIByte*EIByte)-PiByte), "1023EB"},
{"bytes(5.5GiB)", bibyte(5.5 * GiByte), "5.5GiB"},
{"bytes(5.5GB)", bbyte(5.5 * GByte), "5.5GB"},
}.validate(t)
}
func TestVeryBigBytes(t *testing.T) {
b, _ := (&big.Int{}).SetString("15347691069326346944512", 10)
s := BigBytes(b)
if s != "15ZB" {
t.Errorf("Expected 15ZB, got %v", s)
}
s = BigIBytes(b)
if s != "13ZiB" {
t.Errorf("Expected 13ZiB, got %v", s)
}
b, _ = (&big.Int{}).SetString("15716035654990179271180288", 10)
s = BigBytes(b)
if s != "16YB" {
t.Errorf("Expected 16YB, got %v", s)
}
s = BigIBytes(b)
if s != "13YiB" {
t.Errorf("Expected 13YiB, got %v", s)
}
}
func TestVeryVeryBigBytes(t *testing.T) {
b, _ := (&big.Int{}).SetString("16093220510709943573688614912", 10)
s := BigBytes(b)
if s != "16093YB" {
t.Errorf("Expected 16093YB, got %v", s)
}
s = BigIBytes(b)
if s != "13312YiB" {
t.Errorf("Expected 13312YiB, got %v", s)
}
}
func TestParseVeryBig(t *testing.T) {
tests := []struct {
in string
out string
}{
{"16ZB", "16000000000000000000000"},
{"16ZiB", "18889465931478580854784"},
{"16.5ZB", "16500000000000000000000"},
{"16.5ZiB", "19479761741837286506496"},
{"16Z", "16000000000000000000000"},
{"16Zi", "18889465931478580854784"},
{"16.5Z", "16500000000000000000000"},
{"16.5Zi", "19479761741837286506496"},
{"16YB", "16000000000000000000000000"},
{"16YiB", "19342813113834066795298816"},
{"16.5YB", "16500000000000000000000000"},
{"16.5YiB", "19947276023641381382651904"},
{"16Y", "16000000000000000000000000"},
{"16Yi", "19342813113834066795298816"},
{"16.5Y", "16500000000000000000000000"},
{"16.5Yi", "19947276023641381382651904"},
}
for _, test := range tests {
x, err := ParseBigBytes(test.in)
if err != nil {
t.Errorf("Error parsing %q: %v", test.in, err)
continue
}
if x.String() != test.out {
t.Errorf("Expected %q for %q, got %v", test.out, test.in, x)
}
}
}
func BenchmarkParseBigBytes(b *testing.B) {
for i := 0; i < b.N; i++ {
ParseBigBytes("16.5Z")
}
}
func BenchmarkBigBytes(b *testing.B) {
for i := 0; i < b.N; i++ {
bibyte(16.5 * GByte)
}
}

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package humanize
import (
"fmt"
"math"
"strconv"
"strings"
"unicode"
)
// IEC Sizes.
// kibis of bits
const (
Byte = 1 << (iota * 10)
KiByte
MiByte
GiByte
TiByte
PiByte
EiByte
)
// SI Sizes.
const (
IByte = 1
KByte = IByte * 1000
MByte = KByte * 1000
GByte = MByte * 1000
TByte = GByte * 1000
PByte = TByte * 1000
EByte = PByte * 1000
)
var bytesSizeTable = map[string]uint64{
"b": Byte,
"kib": KiByte,
"kb": KByte,
"mib": MiByte,
"mb": MByte,
"gib": GiByte,
"gb": GByte,
"tib": TiByte,
"tb": TByte,
"pib": PiByte,
"pb": PByte,
"eib": EiByte,
"eb": EByte,
// Without suffix
"": Byte,
"ki": KiByte,
"k": KByte,
"mi": MiByte,
"m": MByte,
"gi": GiByte,
"g": GByte,
"ti": TiByte,
"t": TByte,
"pi": PiByte,
"p": PByte,
"ei": EiByte,
"e": EByte,
}
func logn(n, b float64) float64 {
return math.Log(n) / math.Log(b)
}
func humanateBytes(s uint64, base float64, sizes []string) string {
if s < 10 {
return fmt.Sprintf("%dB", s)
}
e := math.Floor(logn(float64(s), base))
suffix := sizes[int(e)]
val := math.Floor(float64(s)/math.Pow(base, e)*10+0.5) / 10
f := "%.0f%s"
if val < 10 {
f = "%.1f%s"
}
return fmt.Sprintf(f, val, suffix)
}
// Bytes produces a human readable representation of an SI size.
//
// See also: ParseBytes.
//
// Bytes(82854982) -> 83MB
func Bytes(s uint64) string {
sizes := []string{"B", "KB", "MB", "GB", "TB", "PB", "EB"}
return humanateBytes(s, 1000, sizes)
}
// IBytes produces a human readable representation of an IEC size.
//
// See also: ParseBytes.
//
// IBytes(82854982) -> 79MiB
func IBytes(s uint64) string {
sizes := []string{"B", "KiB", "MiB", "GiB", "TiB", "PiB", "EiB"}
return humanateBytes(s, 1024, sizes)
}
// ParseBytes parses a string representation of bytes into the number
// of bytes it represents.
//
// See Also: Bytes, IBytes.
//
// ParseBytes("42MB") -> 42000000, nil
// ParseBytes("42mib") -> 44040192, nil
func ParseBytes(s string) (uint64, error) {
lastDigit := 0
for _, r := range s {
if !(unicode.IsDigit(r) || r == '.') {
break
}
lastDigit++
}
f, err := strconv.ParseFloat(s[:lastDigit], 64)
if err != nil {
return 0, err
}
extra := strings.ToLower(strings.TrimSpace(s[lastDigit:]))
if m, ok := bytesSizeTable[extra]; ok {
f *= float64(m)
if f >= math.MaxUint64 {
return 0, fmt.Errorf("too large: %v", s)
}
return uint64(f), nil
}
return 0, fmt.Errorf("unhandled size name: %v", extra)
}

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package humanize
import (
"testing"
)
func TestByteParsing(t *testing.T) {
tests := []struct {
in string
exp uint64
}{
{"42", 42},
{"42MB", 42000000},
{"42MiB", 44040192},
{"42mb", 42000000},
{"42mib", 44040192},
{"42MIB", 44040192},
{"42 MB", 42000000},
{"42 MiB", 44040192},
{"42 mb", 42000000},
{"42 mib", 44040192},
{"42 MIB", 44040192},
{"42.5MB", 42500000},
{"42.5MiB", 44564480},
{"42.5 MB", 42500000},
{"42.5 MiB", 44564480},
// No need to say B
{"42M", 42000000},
{"42Mi", 44040192},
{"42m", 42000000},
{"42mi", 44040192},
{"42MI", 44040192},
{"42 M", 42000000},
{"42 Mi", 44040192},
{"42 m", 42000000},
{"42 mi", 44040192},
{"42 MI", 44040192},
{"42.5M", 42500000},
{"42.5Mi", 44564480},
{"42.5 M", 42500000},
{"42.5 Mi", 44564480},
// Large testing, breaks when too much larger than
// this.
{"12.5 EB", uint64(12.5 * float64(EByte))},
{"12.5 E", uint64(12.5 * float64(EByte))},
{"12.5 EiB", uint64(12.5 * float64(EiByte))},
}
for _, p := range tests {
got, err := ParseBytes(p.in)
if err != nil {
t.Errorf("Couldn't parse %v: %v", p.in, err)
}
if got != p.exp {
t.Errorf("Expected %v for %v, got %v",
p.exp, p.in, got)
}
}
}
func TestByteErrors(t *testing.T) {
got, err := ParseBytes("84 JB")
if err == nil {
t.Errorf("Expected error, got %v", got)
}
got, err = ParseBytes("")
if err == nil {
t.Errorf("Expected error parsing nothing")
}
got, err = ParseBytes("16 EiB")
if err == nil {
t.Errorf("Expected error, got %v", got)
}
}
func TestBytes(t *testing.T) {
testList{
{"bytes(0)", Bytes(0), "0B"},
{"bytes(1)", Bytes(1), "1B"},
{"bytes(803)", Bytes(803), "803B"},
{"bytes(999)", Bytes(999), "999B"},
{"bytes(1024)", Bytes(1024), "1.0KB"},
{"bytes(9999)", Bytes(9999), "10KB"},
{"bytes(1MB - 1)", Bytes(MByte - Byte), "1000KB"},
{"bytes(1MB)", Bytes(1024 * 1024), "1.0MB"},
{"bytes(1GB - 1K)", Bytes(GByte - KByte), "1000MB"},
{"bytes(1GB)", Bytes(GByte), "1.0GB"},
{"bytes(1TB - 1M)", Bytes(TByte - MByte), "1000GB"},
{"bytes(10MB)", Bytes(9999 * 1000), "10MB"},
{"bytes(1TB)", Bytes(TByte), "1.0TB"},
{"bytes(1PB - 1T)", Bytes(PByte - TByte), "999TB"},
{"bytes(1PB)", Bytes(PByte), "1.0PB"},
{"bytes(1PB - 1T)", Bytes(EByte - PByte), "999PB"},
{"bytes(1EB)", Bytes(EByte), "1.0EB"},
// Overflows.
// {"bytes(1EB - 1P)", Bytes((KByte*EByte)-PByte), "1023EB"},
{"bytes(0)", IBytes(0), "0B"},
{"bytes(1)", IBytes(1), "1B"},
{"bytes(803)", IBytes(803), "803B"},
{"bytes(1023)", IBytes(1023), "1023B"},
{"bytes(1024)", IBytes(1024), "1.0KiB"},
{"bytes(1MB - 1)", IBytes(MiByte - IByte), "1024KiB"},
{"bytes(1MB)", IBytes(1024 * 1024), "1.0MiB"},
{"bytes(1GB - 1K)", IBytes(GiByte - KiByte), "1024MiB"},
{"bytes(1GB)", IBytes(GiByte), "1.0GiB"},
{"bytes(1TB - 1M)", IBytes(TiByte - MiByte), "1024GiB"},
{"bytes(1TB)", IBytes(TiByte), "1.0TiB"},
{"bytes(1PB - 1T)", IBytes(PiByte - TiByte), "1023TiB"},
{"bytes(1PB)", IBytes(PiByte), "1.0PiB"},
{"bytes(1PB - 1T)", IBytes(EiByte - PiByte), "1023PiB"},
{"bytes(1EiB)", IBytes(EiByte), "1.0EiB"},
// Overflows.
// {"bytes(1EB - 1P)", IBytes((KIByte*EIByte)-PiByte), "1023EB"},
{"bytes(5.5GiB)", IBytes(5.5 * GiByte), "5.5GiB"},
{"bytes(5.5GB)", Bytes(5.5 * GByte), "5.5GB"},
}.validate(t)
}
func BenchmarkParseBytes(b *testing.B) {
for i := 0; i < b.N; i++ {
ParseBytes("16.5GB")
}
}
func BenchmarkBytes(b *testing.B) {
for i := 0; i < b.N; i++ {
Bytes(16.5 * GByte)
}
}

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package humanize
import (
"bytes"
"math/big"
"strconv"
"strings"
)
// Comma produces a string form of the given number in base 10 with
// commas after every three orders of magnitude.
//
// e.g. Comma(834142) -> 834,142
func Comma(v int64) string {
sign := ""
if v < 0 {
sign = "-"
v = 0 - v
}
parts := []string{"", "", "", "", "", "", "", ""}
j := len(parts) - 1
for v > 999 {
parts[j] = strconv.FormatInt(v%1000, 10)
switch len(parts[j]) {
case 2:
parts[j] = "0" + parts[j]
case 1:
parts[j] = "00" + parts[j]
}
v = v / 1000
j--
}
parts[j] = strconv.Itoa(int(v))
return sign + strings.Join(parts[j:len(parts)], ",")
}
// Commaf produces a string form of the given number in base 10 with
// commas after every three orders of magnitude.
//
// e.g. Comma(834142.32) -> 834,142.32
func Commaf(v float64) string {
buf := &bytes.Buffer{}
if v < 0 {
buf.Write([]byte{'-'})
v = 0 - v
}
comma := []byte{','}
parts := strings.Split(strconv.FormatFloat(v, 'f', -1, 64), ".")
pos := 0
if len(parts[0])%3 != 0 {
pos += len(parts[0]) % 3
buf.WriteString(parts[0][:pos])
buf.Write(comma)
}
for ; pos < len(parts[0]); pos += 3 {
buf.WriteString(parts[0][pos : pos+3])
buf.Write(comma)
}
buf.Truncate(buf.Len() - 1)
if len(parts) > 1 {
buf.Write([]byte{'.'})
buf.WriteString(parts[1])
}
return buf.String()
}
// BigComma produces a string form of the given big.Int in base 10
// with commas after every three orders of magnitude.
func BigComma(b *big.Int) string {
sign := ""
if b.Sign() < 0 {
sign = "-"
b.Abs(b)
}
athousand := big.NewInt(1000)
c := (&big.Int{}).Set(b)
_, m := oom(c, athousand)
parts := make([]string, m+1)
j := len(parts) - 1
mod := &big.Int{}
for b.Cmp(athousand) >= 0 {
b.DivMod(b, athousand, mod)
parts[j] = strconv.FormatInt(mod.Int64(), 10)
switch len(parts[j]) {
case 2:
parts[j] = "0" + parts[j]
case 1:
parts[j] = "00" + parts[j]
}
j--
}
parts[j] = strconv.Itoa(int(b.Int64()))
return sign + strings.Join(parts[j:len(parts)], ",")
}

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package humanize
import (
"math"
"math/big"
"testing"
)
func TestCommas(t *testing.T) {
testList{
{"0", Comma(0), "0"},
{"10", Comma(10), "10"},
{"100", Comma(100), "100"},
{"1,000", Comma(1000), "1,000"},
{"10,000", Comma(10000), "10,000"},
{"100,000", Comma(100000), "100,000"},
{"10,000,000", Comma(10000000), "10,000,000"},
{"10,100,000", Comma(10100000), "10,100,000"},
{"10,010,000", Comma(10010000), "10,010,000"},
{"10,001,000", Comma(10001000), "10,001,000"},
{"123,456,789", Comma(123456789), "123,456,789"},
{"maxint", Comma(9.223372e+18), "9,223,372,000,000,000,000"},
{"minint", Comma(-9.223372e+18), "-9,223,372,000,000,000,000"},
{"-123,456,789", Comma(-123456789), "-123,456,789"},
{"-10,100,000", Comma(-10100000), "-10,100,000"},
{"-10,010,000", Comma(-10010000), "-10,010,000"},
{"-10,001,000", Comma(-10001000), "-10,001,000"},
{"-10,000,000", Comma(-10000000), "-10,000,000"},
{"-100,000", Comma(-100000), "-100,000"},
{"-10,000", Comma(-10000), "-10,000"},
{"-1,000", Comma(-1000), "-1,000"},
{"-100", Comma(-100), "-100"},
{"-10", Comma(-10), "-10"},
}.validate(t)
}
func TestCommafs(t *testing.T) {
testList{
{"0", Commaf(0), "0"},
{"10.11", Commaf(10.11), "10.11"},
{"100", Commaf(100), "100"},
{"1,000", Commaf(1000), "1,000"},
{"10,000", Commaf(10000), "10,000"},
{"100,000", Commaf(100000), "100,000"},
{"834,142.32", Commaf(834142.32), "834,142.32"},
{"10,000,000", Commaf(10000000), "10,000,000"},
{"10,100,000", Commaf(10100000), "10,100,000"},
{"10,010,000", Commaf(10010000), "10,010,000"},
{"10,001,000", Commaf(10001000), "10,001,000"},
{"123,456,789", Commaf(123456789), "123,456,789"},
{"maxf64", Commaf(math.MaxFloat64), "179,769,313,486,231,570,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000"},
{"minf64", Commaf(math.SmallestNonzeroFloat64), "0.000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000005"},
{"-123,456,789", Commaf(-123456789), "-123,456,789"},
{"-10,100,000", Commaf(-10100000), "-10,100,000"},
{"-10,010,000", Commaf(-10010000), "-10,010,000"},
{"-10,001,000", Commaf(-10001000), "-10,001,000"},
{"-10,000,000", Commaf(-10000000), "-10,000,000"},
{"-100,000", Commaf(-100000), "-100,000"},
{"-10,000", Commaf(-10000), "-10,000"},
{"-1,000", Commaf(-1000), "-1,000"},
{"-100.11", Commaf(-100.11), "-100.11"},
{"-10", Commaf(-10), "-10"},
}.validate(t)
}
func BenchmarkCommas(b *testing.B) {
for i := 0; i < b.N; i++ {
Comma(1234567890)
}
}
func BenchmarkCommaf(b *testing.B) {
for i := 0; i < b.N; i++ {
Commaf(1234567890.83584)
}
}
func BenchmarkBigCommas(b *testing.B) {
for i := 0; i < b.N; i++ {
BigComma(big.NewInt(1234567890))
}
}
func bigComma(i int64) string {
return BigComma(big.NewInt(i))
}
func TestBigCommas(t *testing.T) {
testList{
{"0", bigComma(0), "0"},
{"10", bigComma(10), "10"},
{"100", bigComma(100), "100"},
{"1,000", bigComma(1000), "1,000"},
{"10,000", bigComma(10000), "10,000"},
{"100,000", bigComma(100000), "100,000"},
{"10,000,000", bigComma(10000000), "10,000,000"},
{"10,100,000", bigComma(10100000), "10,100,000"},
{"10,010,000", bigComma(10010000), "10,010,000"},
{"10,001,000", bigComma(10001000), "10,001,000"},
{"123,456,789", bigComma(123456789), "123,456,789"},
{"maxint", bigComma(9.223372e+18), "9,223,372,000,000,000,000"},
{"minint", bigComma(-9.223372e+18), "-9,223,372,000,000,000,000"},
{"-123,456,789", bigComma(-123456789), "-123,456,789"},
{"-10,100,000", bigComma(-10100000), "-10,100,000"},
{"-10,010,000", bigComma(-10010000), "-10,010,000"},
{"-10,001,000", bigComma(-10001000), "-10,001,000"},
{"-10,000,000", bigComma(-10000000), "-10,000,000"},
{"-100,000", bigComma(-100000), "-100,000"},
{"-10,000", bigComma(-10000), "-10,000"},
{"-1,000", bigComma(-1000), "-1,000"},
{"-100", bigComma(-100), "-100"},
{"-10", bigComma(-10), "-10"},
}.validate(t)
}
func TestVeryBigCommas(t *testing.T) {
tests := []struct{ in, exp string }{
{
"84889279597249724975972597249849757294578485",
"84,889,279,597,249,724,975,972,597,249,849,757,294,578,485",
},
{
"-84889279597249724975972597249849757294578485",
"-84,889,279,597,249,724,975,972,597,249,849,757,294,578,485",
},
}
for _, test := range tests {
n, _ := (&big.Int{}).SetString(test.in, 10)
got := BigComma(n)
if test.exp != got {
t.Errorf("Expected %q, got %q", test.exp, got)
}
}
}

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package humanize
import (
"testing"
)
type testList []struct {
name, got, exp string
}
func (tl testList) validate(t *testing.T) {
for _, test := range tl {
if test.got != test.exp {
t.Errorf("On %v, expected '%v', but got '%v'",
test.name, test.exp, test.got)
}
}
}

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package humanize
import "strconv"
func stripTrailingZeros(s string) string {
offset := len(s) - 1
for offset > 0 {
if s[offset] == '.' {
offset--
break
}
if s[offset] != '0' {
break
}
offset--
}
return s[:offset+1]
}
// Ftoa converts a float to a string with no trailing zeros.
func Ftoa(num float64) string {
return stripTrailingZeros(strconv.FormatFloat(num, 'f', 6, 64))
}

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package humanize
import (
"fmt"
"regexp"
"strconv"
"testing"
)
func TestFtoa(t *testing.T) {
testList{
{"200", Ftoa(200), "200"},
{"2", Ftoa(2), "2"},
{"2.2", Ftoa(2.2), "2.2"},
{"2.02", Ftoa(2.02), "2.02"},
{"200.02", Ftoa(200.02), "200.02"},
}.validate(t)
}
func BenchmarkFtoaRegexTrailing(b *testing.B) {
trailingZerosRegex := regexp.MustCompile(`\.?0+$`)
b.ResetTimer()
for i := 0; i < b.N; i++ {
trailingZerosRegex.ReplaceAllString("2.00000", "")
trailingZerosRegex.ReplaceAllString("2.0000", "")
trailingZerosRegex.ReplaceAllString("2.000", "")
trailingZerosRegex.ReplaceAllString("2.00", "")
trailingZerosRegex.ReplaceAllString("2.0", "")
trailingZerosRegex.ReplaceAllString("2", "")
}
}
func BenchmarkFtoaFunc(b *testing.B) {
for i := 0; i < b.N; i++ {
stripTrailingZeros("2.00000")
stripTrailingZeros("2.0000")
stripTrailingZeros("2.000")
stripTrailingZeros("2.00")
stripTrailingZeros("2.0")
stripTrailingZeros("2")
}
}
func BenchmarkFmtF(b *testing.B) {
for i := 0; i < b.N; i++ {
fmt.Sprintf("%f", 2.03584)
}
}
func BenchmarkStrconvF(b *testing.B) {
for i := 0; i < b.N; i++ {
strconv.FormatFloat(2.03584, 'f', 6, 64)
}
}

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/*
Package humanize converts boring ugly numbers to human-friendly strings and back.
Durations can be turned into strings such as "3 days ago", numbers
representing sizes like 82854982 into useful strings like, "83MB" or
"79MiB" (whichever you prefer).
*/
package humanize

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package humanize
import "strconv"
// Ordinal gives you the input number in a rank/ordinal format.
//
// Ordinal(3) -> 3rd
func Ordinal(x int) string {
suffix := "th"
switch x % 10 {
case 1:
if x%100 != 11 {
suffix = "st"
}
case 2:
if x%100 != 12 {
suffix = "nd"
}
case 3:
if x%100 != 13 {
suffix = "rd"
}
}
return strconv.Itoa(x) + suffix
}

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package humanize
import (
"testing"
)
func TestOrdinals(t *testing.T) {
testList{
{"0", Ordinal(0), "0th"},
{"1", Ordinal(1), "1st"},
{"2", Ordinal(2), "2nd"},
{"3", Ordinal(3), "3rd"},
{"4", Ordinal(4), "4th"},
{"10", Ordinal(10), "10th"},
{"11", Ordinal(11), "11th"},
{"12", Ordinal(12), "12th"},
{"13", Ordinal(13), "13th"},
{"101", Ordinal(101), "101st"},
{"102", Ordinal(102), "102nd"},
{"103", Ordinal(103), "103rd"},
}.validate(t)
}

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package humanize
import (
"errors"
"math"
"regexp"
"strconv"
)
var siPrefixTable = map[float64]string{
-24: "y", // yocto
-21: "z", // zepto
-18: "a", // atto
-15: "f", // femto
-12: "p", // pico
-9: "n", // nano
-6: "µ", // micro
-3: "m", // milli
0: "",
3: "k", // kilo
6: "M", // mega
9: "G", // giga
12: "T", // tera
15: "P", // peta
18: "E", // exa
21: "Z", // zetta
24: "Y", // yotta
}
var revSIPrefixTable = revfmap(siPrefixTable)
// revfmap reverses the map and precomputes the power multiplier
func revfmap(in map[float64]string) map[string]float64 {
rv := map[string]float64{}
for k, v := range in {
rv[v] = math.Pow(10, k)
}
return rv
}
var riParseRegex *regexp.Regexp
func init() {
ri := `^([0-9.]+)([`
for _, v := range siPrefixTable {
ri += v
}
ri += `]?)(.*)`
riParseRegex = regexp.MustCompile(ri)
}
// ComputeSI finds the most appropriate SI prefix for the given number
// and returns the prefix along with the value adjusted to be within
// that prefix.
//
// See also: SI, ParseSI.
//
// e.g. ComputeSI(2.2345e-12) -> (2.2345, "p")
func ComputeSI(input float64) (float64, string) {
if input == 0 {
return 0, ""
}
exponent := math.Floor(logn(input, 10))
exponent = math.Floor(exponent/3) * 3
value := input / math.Pow(10, exponent)
// Handle special case where value is exactly 1000.0
// Should return 1M instead of 1000k
if value == 1000.0 {
exponent += 3
value = input / math.Pow(10, exponent)
}
prefix := siPrefixTable[exponent]
return value, prefix
}
// SI returns a string with default formatting.
//
// SI uses Ftoa to format float value, removing trailing zeros.
//
// See also: ComputeSI, ParseSI.
//
// e.g. SI(1000000, B) -> 1MB
// e.g. SI(2.2345e-12, "F") -> 2.2345pF
func SI(input float64, unit string) string {
value, prefix := ComputeSI(input)
return Ftoa(value) + prefix + unit
}
var errInvalid = errors.New("invalid input")
// ParseSI parses an SI string back into the number and unit.
//
// See also: SI, ComputeSI.
//
// e.g. ParseSI(2.2345pF) -> (2.2345e-12, "F", nil)
func ParseSI(input string) (float64, string, error) {
found := riParseRegex.FindStringSubmatch(input)
if len(found) != 4 {
return 0, "", errInvalid
}
mag := revSIPrefixTable[found[2]]
unit := found[3]
base, err := strconv.ParseFloat(found[1], 64)
return base * mag, unit, err
}

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package humanize
import (
"math"
"testing"
)
func TestSI(t *testing.T) {
tests := []struct {
name string
num float64
formatted string
}{
{"e-24", 1e-24, "1yF"},
{"e-21", 1e-21, "1zF"},
{"e-18", 1e-18, "1aF"},
{"e-15", 1e-15, "1fF"},
{"e-12", 1e-12, "1pF"},
{"e-12", 2.2345e-12, "2.2345pF"},
{"e-12", 2.23e-12, "2.23pF"},
{"e-11", 2.23e-11, "22.3pF"},
{"e-10", 2.2e-10, "220pF"},
{"e-9", 2.2e-9, "2.2nF"},
{"e-8", 2.2e-8, "22nF"},
{"e-7", 2.2e-7, "220nF"},
{"e-6", 2.2e-6, "2.2µF"},
{"e-6", 1e-6, "1µF"},
{"e-5", 2.2e-5, "22µF"},
{"e-4", 2.2e-4, "220µF"},
{"e-3", 2.2e-3, "2.2mF"},
{"e-2", 2.2e-2, "22mF"},
{"e-1", 2.2e-1, "220mF"},
{"e+0", 2.2e-0, "2.2F"},
{"e+0", 2.2, "2.2F"},
{"e+1", 2.2e+1, "22F"},
{"0", 0, "0F"},
{"e+1", 22, "22F"},
{"e+2", 2.2e+2, "220F"},
{"e+2", 220, "220F"},
{"e+3", 2.2e+3, "2.2kF"},
{"e+3", 2200, "2.2kF"},
{"e+4", 2.2e+4, "22kF"},
{"e+4", 22000, "22kF"},
{"e+5", 2.2e+5, "220kF"},
{"e+6", 2.2e+6, "2.2MF"},
{"e+6", 1e+6, "1MF"},
{"e+7", 2.2e+7, "22MF"},
{"e+8", 2.2e+8, "220MF"},
{"e+9", 2.2e+9, "2.2GF"},
{"e+10", 2.2e+10, "22GF"},
{"e+11", 2.2e+11, "220GF"},
{"e+12", 2.2e+12, "2.2TF"},
{"e+15", 2.2e+15, "2.2PF"},
{"e+18", 2.2e+18, "2.2EF"},
{"e+21", 2.2e+21, "2.2ZF"},
{"e+24", 2.2e+24, "2.2YF"},
// special case
{"1F", 1000 * 1000, "1MF"},
{"1F", 1e6, "1MF"},
}
for _, test := range tests {
got := SI(test.num, "F")
if got != test.formatted {
t.Errorf("On %v (%v), got %v, wanted %v",
test.name, test.num, got, test.formatted)
}
gotf, gotu, err := ParseSI(test.formatted)
if err != nil {
t.Errorf("Error parsing %v (%v): %v", test.name, test.formatted, err)
continue
}
if math.Abs(1-(gotf/test.num)) > 0.01 {
t.Errorf("On %v (%v), got %v, wanted %v (±%v)",
test.name, test.formatted, gotf, test.num,
math.Abs(1-(gotf/test.num)))
}
if gotu != "F" {
t.Errorf("On %v (%v), expected unit F, got %v",
test.name, test.formatted, gotu)
}
}
// Parse error
gotf, gotu, err := ParseSI("x1.21JW") // 1.21 jigga whats
if err == nil {
t.Errorf("Expected error on x1.21JW, got %v %v", gotf, gotu)
}
}
func BenchmarkParseSI(b *testing.B) {
for i := 0; i < b.N; i++ {
ParseSI("2.2346ZB")
}
}

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package humanize
import (
"fmt"
"math"
"sort"
"time"
)
// Seconds-based time units
const (
Minute = 60
Hour = 60 * Minute
Day = 24 * Hour
Week = 7 * Day
Month = 30 * Day
Year = 12 * Month
LongTime = 37 * Year
)
// Time formats a time into a relative string.
//
// Time(someT) -> "3 weeks ago"
func Time(then time.Time) string {
return RelTime(then, time.Now(), "ago", "from now")
}
var magnitudes = []struct {
d int64
format string
divby int64
}{
{1, "now", 1},
{2, "1 second %s", 1},
{Minute, "%d seconds %s", 1},
{2 * Minute, "1 minute %s", 1},
{Hour, "%d minutes %s", Minute},
{2 * Hour, "1 hour %s", 1},
{Day, "%d hours %s", Hour},
{2 * Day, "1 day %s", 1},
{Week, "%d days %s", Day},
{2 * Week, "1 week %s", 1},
{Month, "%d weeks %s", Week},
{2 * Month, "1 month %s", 1},
{Year, "%d months %s", Month},
{18 * Month, "1 year %s", 1},
{2 * Year, "2 years %s", 1},
{LongTime, "%d years %s", Year},
{math.MaxInt64, "a long while %s", 1},
}
// RelTime formats a time into a relative string.
//
// It takes two times and two labels. In addition to the generic time
// delta string (e.g. 5 minutes), the labels are used applied so that
// the label corresponding to the smaller time is applied.
//
// RelTime(timeInPast, timeInFuture, "earlier", "later") -> "3 weeks earlier"
func RelTime(a, b time.Time, albl, blbl string) string {
lbl := albl
diff := b.Unix() - a.Unix()
after := a.After(b)
if after {
lbl = blbl
diff = a.Unix() - b.Unix()
}
n := sort.Search(len(magnitudes), func(i int) bool {
return magnitudes[i].d > diff
})
mag := magnitudes[n]
args := []interface{}{}
escaped := false
for _, ch := range mag.format {
if escaped {
switch ch {
case '%':
case 's':
args = append(args, lbl)
case 'd':
args = append(args, diff/mag.divby)
}
escaped = false
} else {
escaped = ch == '%'
}
}
return fmt.Sprintf(mag.format, args...)
}

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package humanize
import (
"math"
"testing"
"time"
)
func TestPast(t *testing.T) {
now := time.Now().Unix()
testList{
{"now", Time(time.Unix(now, 0)), "now"},
{"1 second ago", Time(time.Unix(now-1, 0)), "1 second ago"},
{"12 seconds ago", Time(time.Unix(now-12, 0)), "12 seconds ago"},
{"30 seconds ago", Time(time.Unix(now-30, 0)), "30 seconds ago"},
{"45 seconds ago", Time(time.Unix(now-45, 0)), "45 seconds ago"},
{"1 minute ago", Time(time.Unix(now-63, 0)), "1 minute ago"},
{"15 minutes ago", Time(time.Unix(now-15*Minute, 0)), "15 minutes ago"},
{"1 hour ago", Time(time.Unix(now-63*Minute, 0)), "1 hour ago"},
{"2 hours ago", Time(time.Unix(now-2*Hour, 0)), "2 hours ago"},
{"21 hours ago", Time(time.Unix(now-21*Hour, 0)), "21 hours ago"},
{"1 day ago", Time(time.Unix(now-26*Hour, 0)), "1 day ago"},
{"2 days ago", Time(time.Unix(now-49*Hour, 0)), "2 days ago"},
{"3 days ago", Time(time.Unix(now-3*Day, 0)), "3 days ago"},
{"1 week ago (1)", Time(time.Unix(now-7*Day, 0)), "1 week ago"},
{"1 week ago (2)", Time(time.Unix(now-12*Day, 0)), "1 week ago"},
{"2 weeks ago", Time(time.Unix(now-15*Day, 0)), "2 weeks ago"},
{"1 month ago", Time(time.Unix(now-39*Day, 0)), "1 month ago"},
{"3 months ago", Time(time.Unix(now-99*Day, 0)), "3 months ago"},
{"1 year ago (1)", Time(time.Unix(now-365*Day, 0)), "1 year ago"},
{"1 year ago (1)", Time(time.Unix(now-400*Day, 0)), "1 year ago"},
{"2 years ago (1)", Time(time.Unix(now-548*Day, 0)), "2 years ago"},
{"2 years ago (2)", Time(time.Unix(now-725*Day, 0)), "2 years ago"},
{"2 years ago (3)", Time(time.Unix(now-800*Day, 0)), "2 years ago"},
{"3 years ago", Time(time.Unix(now-3*Year, 0)), "3 years ago"},
{"long ago", Time(time.Unix(now-LongTime, 0)), "a long while ago"},
}.validate(t)
}
func TestFuture(t *testing.T) {
now := time.Now().Unix()
testList{
{"now", Time(time.Unix(now, 0)), "now"},
{"1 second from now", Time(time.Unix(now+1, 0)), "1 second from now"},
{"12 seconds from now", Time(time.Unix(now+12, 0)), "12 seconds from now"},
{"30 seconds from now", Time(time.Unix(now+30, 0)), "30 seconds from now"},
{"45 seconds from now", Time(time.Unix(now+45, 0)), "45 seconds from now"},
{"15 minutes from now", Time(time.Unix(now+15*Minute, 0)), "15 minutes from now"},
{"2 hours from now", Time(time.Unix(now+2*Hour, 0)), "2 hours from now"},
{"21 hours from now", Time(time.Unix(now+21*Hour, 0)), "21 hours from now"},
{"1 day from now", Time(time.Unix(now+26*Hour, 0)), "1 day from now"},
{"2 days from now", Time(time.Unix(now+49*Hour, 0)), "2 days from now"},
{"3 days from now", Time(time.Unix(now+3*Day, 0)), "3 days from now"},
{"1 week from now (1)", Time(time.Unix(now+7*Day, 0)), "1 week from now"},
{"1 week from now (2)", Time(time.Unix(now+12*Day, 0)), "1 week from now"},
{"2 weeks from now", Time(time.Unix(now+15*Day, 0)), "2 weeks from now"},
{"1 month from now", Time(time.Unix(now+30*Day, 0)), "1 month from now"},
{"1 year from now", Time(time.Unix(now+365*Day, 0)), "1 year from now"},
{"2 years from now", Time(time.Unix(now+2*Year, 0)), "2 years from now"},
{"a while from now", Time(time.Unix(now+LongTime, 0)), "a long while from now"},
}.validate(t)
}
func TestRange(t *testing.T) {
start := time.Time{}
end := time.Unix(math.MaxInt64, math.MaxInt64)
x := RelTime(start, end, "ago", "from now")
if x != "a long while from now" {
t.Errorf("Expected a long while from now, got %q", x)
}
}

View File

@ -26,7 +26,7 @@ import (
"time"
"github.com/minio-io/cli"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/server"
"github.com/minio-io/minio/pkg/utils/log"
)

View File

@ -20,7 +20,7 @@ import (
"net/http"
"github.com/gorilla/mux"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/storage/drivers"
"github.com/minio-io/minio/pkg/utils/log"
)

View File

@ -20,7 +20,7 @@ import (
"net/http"
"github.com/gorilla/mux"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/storage/drivers"
"github.com/minio-io/minio/pkg/utils/log"
)

View File

@ -21,7 +21,7 @@ import (
"net/http"
"github.com/gorilla/mux"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/storage/drivers"
"github.com/minio-io/minio/pkg/utils/log"
)

View File

@ -21,8 +21,8 @@ import (
"net/http"
router "github.com/gorilla/mux"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/api/config"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/storage/drivers"
)

View File

@ -24,7 +24,7 @@ import (
"path"
"sync"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
// Config context

View File

@ -23,8 +23,8 @@ import (
"path"
"github.com/gorilla/mux"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/api/config"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/utils/crypto/keys"
"github.com/minio-io/minio/pkg/utils/log"
)

View File

@ -31,7 +31,7 @@ import (
"github.com/dustin/go-humanize"
)
// WrappedError is the iodine error which contains a pointer to the original error
// Error is the iodine error which contains a pointer to the original error
// and stack traces.
type Error struct {
EmbeddedError error `json:"-"`
@ -93,7 +93,7 @@ func GetGlobalStateKey(k string) string {
return result
}
// Error - instantiate an error, turning it into an iodine error.
// New - instantiate an error, turning it into an iodine error.
// Adds an initial stack trace.
func New(err error, data map[string]string) error {
if err != nil {

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@ -24,9 +24,9 @@ import (
"errors"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/api"
"github.com/minio-io/minio/pkg/api/web"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/server/httpserver"
"github.com/minio-io/minio/pkg/storage/drivers"
"github.com/minio-io/minio/pkg/storage/drivers/donut"

View File

@ -19,7 +19,7 @@ package donut
import (
"errors"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
// donut struct internal data

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@ -29,7 +29,7 @@ import (
"crypto/md5"
"encoding/hex"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
// internal struct carrying bucket specific information

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@ -29,7 +29,7 @@ import (
"strconv"
"strings"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/utils/split"
)

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@ -24,7 +24,7 @@ import (
"io/ioutil"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
// internal disk struct

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@ -20,8 +20,8 @@ import (
"errors"
"strconv"
"github.com/minio-io/iodine"
encoding "github.com/minio-io/minio/pkg/erasure"
"github.com/minio-io/minio/pkg/iodine"
)
// encoder internal struct

View File

@ -19,7 +19,7 @@ package donut
import (
"errors"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
// node struct internal

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@ -21,7 +21,7 @@ import (
"os"
"strings"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
// Rebalance -

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@ -5,7 +5,7 @@ import (
"errors"
"path"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
// Heal - heal a donut and fix bad data blocks

View File

@ -24,7 +24,7 @@ import (
"strings"
"time"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
// MakeBucket - make a new bucket

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@ -22,7 +22,7 @@ import (
"path"
"strings"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
)
func (d donut) makeDonutBucket(bucketName string) error {

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@ -30,7 +30,7 @@ import (
"io/ioutil"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/storage/donut"
"github.com/minio-io/minio/pkg/storage/drivers"
"github.com/minio-io/minio/pkg/utils/log"

View File

@ -4,7 +4,7 @@ import (
"bytes"
"io"
"github.com/minio-io/iodine"
"github.com/minio-io/minio/pkg/iodine"
"github.com/minio-io/minio/pkg/storage/drivers"
"github.com/stretchr/testify/mock"
)