packer-cn/vendor/github.com/cheggaaa/pb/pb.go

504 lines
12 KiB
Go
Raw Normal View History

// Simple console progress bars
package pb
import (
"fmt"
"io"
"math"
"strings"
"sync"
"sync/atomic"
"time"
"unicode/utf8"
)
// Current version
const Version = "1.0.27"
const (
// Default refresh rate - 200ms
DEFAULT_REFRESH_RATE = time.Millisecond * 200
FORMAT = "[=>-]"
)
// DEPRECATED
// variables for backward compatibility, from now do not work
// use pb.Format and pb.SetRefreshRate
var (
DefaultRefreshRate = DEFAULT_REFRESH_RATE
BarStart, BarEnd, Empty, Current, CurrentN string
)
// Create new progress bar object
func New(total int) *ProgressBar {
return New64(int64(total))
}
// Create new progress bar object using int64 as total
func New64(total int64) *ProgressBar {
pb := &ProgressBar{
Total: total,
RefreshRate: DEFAULT_REFRESH_RATE,
ShowPercent: true,
ShowCounters: true,
ShowBar: true,
ShowTimeLeft: true,
ShowElapsedTime: false,
ShowFinalTime: true,
Units: U_NO,
ManualUpdate: false,
finish: make(chan struct{}),
}
return pb.Format(FORMAT)
}
// Create new object and start
func StartNew(total int) *ProgressBar {
return New(total).Start()
}
// Callback for custom output
// For example:
// bar.Callback = func(s string) {
// mySuperPrint(s)
// }
//
type Callback func(out string)
type ProgressBar struct {
current int64 // current must be first member of struct (https://code.google.com/p/go/issues/detail?id=5278)
previous int64
Total int64
RefreshRate time.Duration
ShowPercent, ShowCounters bool
ShowSpeed, ShowTimeLeft, ShowBar bool
ShowFinalTime, ShowElapsedTime bool
Output io.Writer
Callback Callback
NotPrint bool
Units Units
Width int
ForceWidth bool
ManualUpdate bool
AutoStat bool
// Default width for the time box.
UnitsWidth int
TimeBoxWidth int
finishOnce sync.Once //Guards isFinish
finish chan struct{}
isFinish bool
startTime time.Time
startValue int64
changeTime time.Time
prefix, postfix string
mu sync.Mutex
lastPrint string
BarStart string
BarEnd string
Empty string
Current string
CurrentN string
AlwaysUpdate bool
}
// Start print
func (pb *ProgressBar) Start() *ProgressBar {
pb.startTime = time.Now()
pb.startValue = atomic.LoadInt64(&pb.current)
if atomic.LoadInt64(&pb.Total) == 0 {
pb.ShowTimeLeft = false
pb.ShowPercent = false
pb.AutoStat = false
}
if !pb.ManualUpdate {
pb.Update() // Initial printing of the bar before running the bar refresher.
go pb.refresher()
}
return pb
}
// Increment current value
func (pb *ProgressBar) Increment() int {
return pb.Add(1)
}
// Get current value
func (pb *ProgressBar) Get() int64 {
c := atomic.LoadInt64(&pb.current)
return c
}
// Set current value
func (pb *ProgressBar) Set(current int) *ProgressBar {
return pb.Set64(int64(current))
}
// Set64 sets the current value as int64
func (pb *ProgressBar) Set64(current int64) *ProgressBar {
atomic.StoreInt64(&pb.current, current)
return pb
}
// Add to current value
func (pb *ProgressBar) Add(add int) int {
return int(pb.Add64(int64(add)))
}
func (pb *ProgressBar) Add64(add int64) int64 {
return atomic.AddInt64(&pb.current, add)
}
// Set prefix string
func (pb *ProgressBar) Prefix(prefix string) *ProgressBar {
2018-10-16 12:18:29 -04:00
pb.mu.Lock()
defer pb.mu.Unlock()
pb.prefix = prefix
return pb
}
// Set postfix string
func (pb *ProgressBar) Postfix(postfix string) *ProgressBar {
2018-10-16 12:18:29 -04:00
pb.mu.Lock()
defer pb.mu.Unlock()
pb.postfix = postfix
return pb
}
// Set custom format for bar
// Example: bar.Format("[=>_]")
// Example: bar.Format("[\x00=\x00>\x00-\x00]") // \x00 is the delimiter
func (pb *ProgressBar) Format(format string) *ProgressBar {
var formatEntries []string
if utf8.RuneCountInString(format) == 5 {
formatEntries = strings.Split(format, "")
} else {
formatEntries = strings.Split(format, "\x00")
}
if len(formatEntries) == 5 {
pb.BarStart = formatEntries[0]
pb.BarEnd = formatEntries[4]
pb.Empty = formatEntries[3]
pb.Current = formatEntries[1]
pb.CurrentN = formatEntries[2]
}
return pb
}
// Set bar refresh rate
func (pb *ProgressBar) SetRefreshRate(rate time.Duration) *ProgressBar {
pb.RefreshRate = rate
return pb
}
// Set units
// bar.SetUnits(U_NO) - by default
// bar.SetUnits(U_BYTES) - for Mb, Kb, etc
func (pb *ProgressBar) SetUnits(units Units) *ProgressBar {
pb.Units = units
return pb
}
// Set max width, if width is bigger than terminal width, will be ignored
func (pb *ProgressBar) SetMaxWidth(width int) *ProgressBar {
pb.Width = width
pb.ForceWidth = false
return pb
}
// Set bar width
func (pb *ProgressBar) SetWidth(width int) *ProgressBar {
pb.Width = width
pb.ForceWidth = true
return pb
}
// End print
func (pb *ProgressBar) Finish() {
//Protect multiple calls
pb.finishOnce.Do(func() {
close(pb.finish)
pb.write(atomic.LoadInt64(&pb.Total), atomic.LoadInt64(&pb.current))
pb.mu.Lock()
defer pb.mu.Unlock()
switch {
case pb.Output != nil:
fmt.Fprintln(pb.Output)
case !pb.NotPrint:
fmt.Println()
}
pb.isFinish = true
})
}
// IsFinished return boolean
func (pb *ProgressBar) IsFinished() bool {
pb.mu.Lock()
defer pb.mu.Unlock()
return pb.isFinish
}
// End print and write string 'str'
func (pb *ProgressBar) FinishPrint(str string) {
pb.Finish()
if pb.Output != nil {
fmt.Fprintln(pb.Output, str)
} else {
fmt.Println(str)
}
}
// implement io.Writer
func (pb *ProgressBar) Write(p []byte) (n int, err error) {
n = len(p)
pb.Add(n)
return
}
// implement io.Reader
func (pb *ProgressBar) Read(p []byte) (n int, err error) {
n = len(p)
pb.Add(n)
return
}
// Create new proxy reader over bar
// Takes io.Reader or io.ReadCloser
func (pb *ProgressBar) NewProxyReader(r io.Reader) *Reader {
return &Reader{r, pb}
}
func (pb *ProgressBar) write(total, current int64) {
2018-10-16 12:18:29 -04:00
pb.mu.Lock()
defer pb.mu.Unlock()
width := pb.GetWidth()
var percentBox, countersBox, timeLeftBox, timeSpentBox, speedBox, barBox, end, out string
// percents
if pb.ShowPercent {
var percent float64
if total > 0 {
percent = float64(current) / (float64(total) / float64(100))
} else {
percent = float64(current) / float64(100)
}
percentBox = fmt.Sprintf(" %6.02f%%", percent)
}
// counters
if pb.ShowCounters {
current := Format(current).To(pb.Units).Width(pb.UnitsWidth)
if total > 0 {
totalS := Format(total).To(pb.Units).Width(pb.UnitsWidth)
countersBox = fmt.Sprintf(" %s / %s ", current, totalS)
} else {
countersBox = fmt.Sprintf(" %s / ? ", current)
}
}
// time left
currentFromStart := current - pb.startValue
fromStart := time.Now().Sub(pb.startTime)
lastChangeTime := pb.changeTime
fromChange := lastChangeTime.Sub(pb.startTime)
if pb.ShowElapsedTime {
timeSpentBox = fmt.Sprintf(" %s ", (fromStart/time.Second)*time.Second)
}
select {
case <-pb.finish:
if pb.ShowFinalTime {
var left time.Duration
left = (fromStart / time.Second) * time.Second
timeLeftBox = fmt.Sprintf(" %s", left.String())
}
default:
if pb.ShowTimeLeft && currentFromStart > 0 {
perEntry := fromChange / time.Duration(currentFromStart)
var left time.Duration
if total > 0 {
left = time.Duration(total-currentFromStart) * perEntry
left -= time.Since(lastChangeTime)
left = (left / time.Second) * time.Second
} else {
left = time.Duration(currentFromStart) * perEntry
left = (left / time.Second) * time.Second
}
if left > 0 {
timeLeft := Format(int64(left)).To(U_DURATION).String()
timeLeftBox = fmt.Sprintf(" %s", timeLeft)
}
}
}
if len(timeLeftBox) < pb.TimeBoxWidth {
timeLeftBox = fmt.Sprintf("%s%s", strings.Repeat(" ", pb.TimeBoxWidth-len(timeLeftBox)), timeLeftBox)
}
// speed
if pb.ShowSpeed && currentFromStart > 0 {
fromStart := time.Now().Sub(pb.startTime)
speed := float64(currentFromStart) / (float64(fromStart) / float64(time.Second))
speedBox = " " + Format(int64(speed)).To(pb.Units).Width(pb.UnitsWidth).PerSec().String()
}
barWidth := escapeAwareRuneCountInString(countersBox + pb.BarStart + pb.BarEnd + percentBox + timeSpentBox + timeLeftBox + speedBox + pb.prefix + pb.postfix)
// bar
if pb.ShowBar {
size := width - barWidth
if size > 0 {
if total > 0 {
curSize := int(math.Ceil((float64(current) / float64(total)) * float64(size)))
emptySize := size - curSize
barBox = pb.BarStart
if emptySize < 0 {
emptySize = 0
}
if curSize > size {
curSize = size
}
cursorLen := escapeAwareRuneCountInString(pb.Current)
if emptySize <= 0 {
barBox += strings.Repeat(pb.Current, curSize/cursorLen)
} else if curSize > 0 {
cursorEndLen := escapeAwareRuneCountInString(pb.CurrentN)
cursorRepetitions := (curSize - cursorEndLen) / cursorLen
barBox += strings.Repeat(pb.Current, cursorRepetitions)
barBox += pb.CurrentN
}
emptyLen := escapeAwareRuneCountInString(pb.Empty)
barBox += strings.Repeat(pb.Empty, emptySize/emptyLen)
barBox += pb.BarEnd
} else {
pos := size - int(current)%int(size)
barBox = pb.BarStart
if pos-1 > 0 {
barBox += strings.Repeat(pb.Empty, pos-1)
}
barBox += pb.Current
if size-pos-1 > 0 {
barBox += strings.Repeat(pb.Empty, size-pos-1)
}
barBox += pb.BarEnd
}
}
}
// check len
out = pb.prefix + timeSpentBox + countersBox + barBox + percentBox + speedBox + timeLeftBox + pb.postfix
2018-10-16 12:18:29 -04:00
if cl := escapeAwareRuneCountInString(out); cl < width {
end = strings.Repeat(" ", width-cl)
}
// and print!
pb.lastPrint = out + end
isFinish := pb.isFinish
switch {
case isFinish:
return
case pb.Output != nil:
fmt.Fprint(pb.Output, "\r"+out+end)
case pb.Callback != nil:
pb.Callback(out + end)
case !pb.NotPrint:
fmt.Print("\r" + out + end)
}
}
// GetTerminalWidth - returns terminal width for all platforms.
func GetTerminalWidth() (int, error) {
return terminalWidth()
}
func (pb *ProgressBar) GetWidth() int {
if pb.ForceWidth {
return pb.Width
}
width := pb.Width
termWidth, _ := terminalWidth()
if width == 0 || termWidth <= width {
width = termWidth
}
return width
}
// Write the current state of the progressbar
func (pb *ProgressBar) Update() {
c := atomic.LoadInt64(&pb.current)
p := atomic.LoadInt64(&pb.previous)
t := atomic.LoadInt64(&pb.Total)
if p != c {
pb.mu.Lock()
pb.changeTime = time.Now()
pb.mu.Unlock()
atomic.StoreInt64(&pb.previous, c)
}
pb.write(t, c)
if pb.AutoStat {
if c == 0 {
pb.startTime = time.Now()
pb.startValue = 0
} else if c >= t && pb.isFinish != true {
pb.Finish()
}
}
}
// String return the last bar print
func (pb *ProgressBar) String() string {
pb.mu.Lock()
defer pb.mu.Unlock()
return pb.lastPrint
}
// SetTotal atomically sets new total count
func (pb *ProgressBar) SetTotal(total int) *ProgressBar {
return pb.SetTotal64(int64(total))
}
// SetTotal64 atomically sets new total count
func (pb *ProgressBar) SetTotal64(total int64) *ProgressBar {
atomic.StoreInt64(&pb.Total, total)
return pb
}
// Reset bar and set new total count
// Does effect only on finished bar
func (pb *ProgressBar) Reset(total int) *ProgressBar {
pb.mu.Lock()
defer pb.mu.Unlock()
if pb.isFinish {
pb.SetTotal(total).Set(0)
atomic.StoreInt64(&pb.previous, 0)
}
return pb
}
// Internal loop for refreshing the progressbar
func (pb *ProgressBar) refresher() {
for {
select {
case <-pb.finish:
return
case <-time.After(pb.RefreshRate):
pb.Update()
}
}
}