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bar.go
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package progress
import (
"fmt"
"os"
"strings"
"time"
"github.com/jmorganca/ollama/format"
"golang.org/x/term"
)
type Bar struct {
message string
messageWidth int
maxValue int64
initialValue int64
currentValue int64
started time.Time
stopped time.Time
maxBuckets int
buckets []bucket
}
type bucket struct {
updated time.Time
value int64
}
func NewBar(message string, maxValue, initialValue int64) *Bar {
b := Bar{
message: message,
messageWidth: -1,
maxValue: maxValue,
initialValue: initialValue,
currentValue: initialValue,
started: time.Now(),
maxBuckets: 10,
}
if initialValue >= maxValue {
b.stopped = time.Now()
}
return &b
}
// formatDuration limits the rendering of a time.Duration to 2 units
func formatDuration(d time.Duration) string {
switch {
case d >= 100*time.Hour:
return "99h+"
case d >= time.Hour:
return fmt.Sprintf("%dh%dm", int(d.Hours()), int(d.Minutes())%60)
default:
return d.Round(time.Second).String()
}
}
func (b *Bar) String() string {
termWidth, _, err := term.GetSize(int(os.Stderr.Fd()))
if err != nil {
termWidth = 80
}
var pre strings.Builder
if len(b.message) > 0 {
message := strings.TrimSpace(b.message)
if b.messageWidth > 0 && len(message) > b.messageWidth {
message = message[:b.messageWidth]
}
fmt.Fprintf(&pre, "%s", message)
if padding := b.messageWidth - pre.Len(); padding > 0 {
pre.WriteString(repeat(" ", padding))
}
pre.WriteString(" ")
}
fmt.Fprintf(&pre, "%3.0f%%", b.percent())
var suf strings.Builder
// max 13 characters: "999 MB/999 MB"
if b.stopped.IsZero() {
curValue := format.HumanBytes(b.currentValue)
suf.WriteString(repeat(" ", 6-len(curValue)))
suf.WriteString(curValue)
suf.WriteString("/")
maxValue := format.HumanBytes(b.maxValue)
suf.WriteString(repeat(" ", 6-len(maxValue)))
suf.WriteString(maxValue)
} else {
maxValue := format.HumanBytes(b.maxValue)
suf.WriteString(repeat(" ", 6-len(maxValue)))
suf.WriteString(maxValue)
suf.WriteString(repeat(" ", 7))
}
rate := b.rate()
// max 10 characters: " 999 MB/s"
if b.stopped.IsZero() && rate > 0 {
suf.WriteString(" ")
humanRate := format.HumanBytes(int64(rate))
suf.WriteString(repeat(" ", 6-len(humanRate)))
suf.WriteString(humanRate)
suf.WriteString("/s")
} else {
suf.WriteString(repeat(" ", 10))
}
// max 8 characters: " 59m59s"
if b.stopped.IsZero() && rate > 0 {
suf.WriteString(" ")
var remaining time.Duration
if rate > 0 {
remaining = time.Duration(int64(float64(b.maxValue-b.currentValue)/rate)) * time.Second
}
humanRemaining := formatDuration(remaining)
suf.WriteString(repeat(" ", 6-len(humanRemaining)))
suf.WriteString(humanRemaining)
} else {
suf.WriteString(repeat(" ", 8))
}
var mid strings.Builder
// add 5 extra spaces: 2 boundary characters and 1 space at each end
f := termWidth - pre.Len() - suf.Len() - 5
n := int(float64(f) * b.percent() / 100)
mid.WriteString(" ▕")
if n > 0 {
mid.WriteString(repeat("█", n))
}
if f-n > 0 {
mid.WriteString(repeat(" ", f-n))
}
mid.WriteString("▏ ")
return pre.String() + mid.String() + suf.String()
}
func (b *Bar) Set(value int64) {
if value >= b.maxValue {
value = b.maxValue
}
b.currentValue = value
if b.currentValue >= b.maxValue {
b.stopped = time.Now()
}
// throttle bucket updates to 1 per second
if len(b.buckets) == 0 || time.Since(b.buckets[len(b.buckets)-1].updated) > time.Second {
b.buckets = append(b.buckets, bucket{
updated: time.Now(),
value: value,
})
if len(b.buckets) > b.maxBuckets {
b.buckets = b.buckets[1:]
}
}
}
func (b *Bar) percent() float64 {
if b.maxValue > 0 {
return float64(b.currentValue) / float64(b.maxValue) * 100
}
return 0
}
func (b *Bar) rate() float64 {
var numerator, denominator float64
if !b.stopped.IsZero() {
numerator = float64(b.currentValue - b.initialValue)
denominator = b.stopped.Sub(b.started).Round(time.Second).Seconds()
} else {
switch len(b.buckets) {
case 0:
// noop
case 1:
numerator = float64(b.buckets[0].value - b.initialValue)
denominator = b.buckets[0].updated.Sub(b.started).Round(time.Second).Seconds()
default:
first, last := b.buckets[0], b.buckets[len(b.buckets)-1]
numerator = float64(last.value - first.value)
denominator = last.updated.Sub(first.updated).Round(time.Second).Seconds()
}
}
if denominator != 0 {
return numerator / denominator
}
return 0
}
func repeat(s string, n int) string {
if n > 0 {
return strings.Repeat(s, n)
}
return ""
}