oh-my-posh/segment_executiontime.go

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package main
import (
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"fmt"
"strconv"
lang "golang.org/x/text/language"
"golang.org/x/text/message"
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)
type executiontime struct {
props *properties
env environmentInfo
output string
}
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type DurationStyle string
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const (
// ThresholdProperty represents minimum duration (milliseconds) required to enable this segment
ThresholdProperty Property = "threshold"
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Austin DurationStyle = "austin"
Roundrock DurationStyle = "roundrock"
Dallas DurationStyle = "dallas"
Galveston DurationStyle = "galveston"
Houston DurationStyle = "houston"
Amarillo DurationStyle = "amarillo"
second = 1000
minute = 60000
hour = 3600000
day = 86400000
secondsPerMinute = 60
minutesPerHour = 60
hoursPerDay = 24
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)
func (t *executiontime) enabled() bool {
executionTimeMs := t.env.executionTime()
thresholdMs := t.props.getFloat64(ThresholdProperty, float64(500))
if executionTimeMs < thresholdMs {
return false
}
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style := DurationStyle(t.props.getString(Style, string(Austin)))
t.output = t.formatDuration(int64(executionTimeMs), style)
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return t.output != ""
}
func (t *executiontime) string() string {
return t.output
}
func (t *executiontime) init(props *properties, env environmentInfo) {
t.props = props
t.env = env
}
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func (t *executiontime) formatDuration(ms int64, style DurationStyle) string {
switch style {
case Austin:
return t.formatDurationAustin(ms)
case Roundrock:
return t.formatDurationRoundrock(ms)
case Dallas:
return t.formatDurationDallas(ms)
case Galveston:
return t.formatDurationGalveston(ms)
case Houston:
return t.formatDurationHouston(ms)
case Amarillo:
return t.formatDurationAmarillo(ms)
default:
return fmt.Sprintf("Style: %s is not available", style)
}
}
func (t *executiontime) formatDurationAustin(ms int64) string {
if ms < second {
return fmt.Sprintf("%dms", ms%second)
}
seconds := float64(ms%minute) / second
result := strconv.FormatFloat(seconds, 'f', -1, 64) + "s"
if ms >= minute {
result = fmt.Sprintf("%dm %s", ms/minute%secondsPerMinute, result)
}
if ms >= hour {
result = fmt.Sprintf("%dh %s", ms/hour%hoursPerDay, result)
}
if ms >= day {
result = fmt.Sprintf("%dd %s", ms/day, result)
}
return result
}
func (t *executiontime) formatDurationRoundrock(ms int64) string {
result := fmt.Sprintf("%dms", ms%second)
if ms >= second {
result = fmt.Sprintf("%ds %s", ms/second%secondsPerMinute, result)
}
if ms >= minute {
result = fmt.Sprintf("%dm %s", ms/minute%minutesPerHour, result)
}
if ms >= hour {
result = fmt.Sprintf("%dh %s", ms/hour%hoursPerDay, result)
}
if ms >= day {
result = fmt.Sprintf("%dd %s", ms/day, result)
}
return result
}
func (t *executiontime) formatDurationDallas(ms int64) string {
seconds := float64(ms%minute) / second
result := strconv.FormatFloat(seconds, 'f', -1, 64)
if ms >= minute {
result = fmt.Sprintf("%d:%s", ms/minute%minutesPerHour, result)
}
if ms >= hour {
result = fmt.Sprintf("%d:%s", ms/hour%hoursPerDay, result)
}
if ms >= day {
result = fmt.Sprintf("%d:%s", ms/day, result)
}
return result
}
func (t *executiontime) formatDurationGalveston(ms int64) string {
result := fmt.Sprintf("%02d:%02d:%02d", ms/hour, ms/minute%minutesPerHour, ms%minute/second)
return result
}
func (t *executiontime) formatDurationHouston(ms int64) string {
milliseconds := ".0"
if ms%second > 0 {
// format milliseconds as a string with truncated trailing zeros
milliseconds = strconv.FormatFloat(float64(ms%second)/second, 'f', -1, 64)
// at this point milliseconds looks like "0.5". remove the leading "0"
milliseconds = milliseconds[1:]
}
result := fmt.Sprintf("%02d:%02d:%02d%s", ms/hour, ms/minute%minutesPerHour, ms%minute/second, milliseconds)
return result
}
func (t *executiontime) formatDurationAmarillo(ms int64) string {
// wholeNumber represents the value to the left of the decimal point (seconds)
wholeNumber := ms / second
// decimalNumber represents the value to the right of the decimal point (milliseconds)
decimalNumber := float64(ms%second) / second
// format wholeNumber as a string with thousands separators
printer := message.NewPrinter(lang.English)
result := printer.Sprintf("%d", wholeNumber)
if decimalNumber > 0 {
// format decimalNumber as a string with truncated trailing zeros
decimalResult := strconv.FormatFloat(decimalNumber, 'f', -1, 64)
// at this point decimalResult looks like "0.5"
// remove the leading "0" and append
result += decimalResult[1:]
}
result += "s"
return result
}