95 lines
3.0 KiB
Go
95 lines
3.0 KiB
Go
package cliutil
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import (
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"fmt"
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"math"
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"time"
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)
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// ETA implements a very simple eta calculator based on the number of remaining items. It does not
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// require knowing the work size in advance and is therefore suitable for streaming workloads and
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// also does not require that consecutive updates have a monotonically decreasing remaining value.
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type ETA struct {
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// max number of items to keep in memory
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maxItems int
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// a queue of most recently updated items
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items []item
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// we store the last calculated ETA which we reuse if there was not change in remaining items
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lastETA string
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}
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type item struct {
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timestamp time.Time
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remaining int64
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}
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// NewETA creates a new ETA calculator of the given size
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func NewETA(maxItems int) *ETA {
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return &ETA{
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maxItems: maxItems,
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items: make([]item, 0),
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}
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}
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// Update updates the ETA calculator with the remaining number of items and returns the ETA
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func (e *ETA) Update(remaining int64) string {
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item := item{
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timestamp: time.Now(),
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remaining: remaining,
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}
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if len(e.items) == 0 {
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e.items = append(e.items, item)
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return ""
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}
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if e.items[len(e.items)-1].remaining == remaining {
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// we ignore updates with the same remaining value and just return the previous ETA
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return e.lastETA
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} else if e.items[len(e.items)-1].remaining < remaining {
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// remaining went up from previous update, lets estimate how many items were processed using the
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// average number processed items in the queue.
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var avgProcessedPerItem int64 = 1
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if len(e.items) > 1 {
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diffRemaining := e.items[0].remaining - e.items[len(e.items)-1].remaining
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avgProcessedPerItem = int64(math.Round(float64(diffRemaining) / float64(len(e.items))))
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}
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// diff is the difference in increase in remaining since last update plus the average number of processed
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// items we estimate that were processed this round
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diff := remaining - e.items[len(e.items)-1].remaining + avgProcessedPerItem
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// we update all items in the queue by shifting their remaining value accordingly. This means that we
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// always have strictly decreasing remaining values in the queue
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for i := range e.items {
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e.items[i].remaining += diff
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}
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}
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// append the item to the queue and remove the oldest item if needed
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if len(e.items) >= e.maxItems {
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e.items = e.items[1:]
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}
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e.items = append(e.items, item)
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// calculate the average processing time per item in the queue
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diffMs := e.items[len(e.items)-1].timestamp.Sub(e.items[0].timestamp).Milliseconds()
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nrItemsProcessed := e.items[0].remaining - e.items[len(e.items)-1].remaining
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avg := diffMs / nrItemsProcessed
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// use that average processing time to estimate how long the remaining items will take
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// and cache that ETA so we don't have to recalculate it on every update unless the
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// remaining value changes
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e.lastETA = msToETA(avg * remaining)
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return e.lastETA
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}
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func msToETA(ms int64) string {
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seconds := ms / 1000
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minutes := seconds / 60
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hours := minutes / 60
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return fmt.Sprintf("%02dh:%02dm:%02ds", hours, minutes%60, seconds%60)
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}
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