mirror of
https://github.com/golang/go
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1d2a500105
Currently appspot logs say: delay: gob encoding failed: gob: type build.PerfChange has no exported fields And I was thinking why it is not sending mails... LGTM=adg R=adg CC=golang-codereviews https://golang.org/cl/125480043
313 lines
8.2 KiB
Go
313 lines
8.2 KiB
Go
// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// +build appengine
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package build
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import (
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"fmt"
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"sort"
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"strconv"
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"strings"
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"appengine"
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"appengine/datastore"
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)
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var knownTags = map[string]string{
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"go1": "0051c7442fed9c888de6617fa9239a913904d96e",
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"go1.1": "d29da2ced72ba2cf48ed6a8f1ec4abc01e4c5bf1",
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"go1.2": "b1edf8faa5d6cbc50c6515785df9df9c19296564",
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"go1.3": "f153208c0a0e306bfca14f71ef11f09859ccabc8",
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}
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var lastRelease = "go1.3"
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func splitBench(benchProcs string) (string, int) {
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ss := strings.Split(benchProcs, "-")
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procs, _ := strconv.Atoi(ss[1])
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return ss[0], procs
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}
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func dashPerfCommits(c appengine.Context, page int) ([]*Commit, error) {
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q := datastore.NewQuery("Commit").
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Ancestor((&Package{}).Key(c)).
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Order("-Num").
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Filter("NeedsBenchmarking =", true).
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Limit(commitsPerPage).
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Offset(page * commitsPerPage)
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var commits []*Commit
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_, err := q.GetAll(c, &commits)
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if err == nil && len(commits) == 0 {
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err = fmt.Errorf("no commits")
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}
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return commits, err
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}
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func perfChangeStyle(pc *PerfConfig, v float64, builder, benchmark, metric string) string {
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noise := pc.NoiseLevel(builder, benchmark, metric)
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if isNoise(v, noise) {
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return "noise"
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}
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if v > 0 {
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return "bad"
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}
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return "good"
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}
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func isNoise(diff, noise float64) bool {
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rnoise := -100 * noise / (noise + 100)
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return diff < noise && diff > rnoise
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}
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func perfDiff(old, new uint64) float64 {
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return 100*float64(new)/float64(old) - 100
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}
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func isPerfFailed(res *PerfResult, builder string) bool {
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data := res.ParseData()[builder]
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return data != nil && data["meta-done"] != nil && !data["meta-done"].OK
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}
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// PerfResultCache caches a set of PerfResults so that it's easy to access them
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// without lots of duplicate accesses to datastore.
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// It allows to iterate over newer or older results for some base commit.
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type PerfResultCache struct {
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c appengine.Context
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newer bool
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iter *datastore.Iterator
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results map[int]*PerfResult
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}
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func MakePerfResultCache(c appengine.Context, com *Commit, newer bool) *PerfResultCache {
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p := &Package{}
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q := datastore.NewQuery("PerfResult").Ancestor(p.Key(c)).Limit(100)
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if newer {
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q = q.Filter("CommitNum >=", com.Num).Order("CommitNum")
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} else {
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q = q.Filter("CommitNum <=", com.Num).Order("-CommitNum")
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}
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rc := &PerfResultCache{c: c, newer: newer, iter: q.Run(c), results: make(map[int]*PerfResult)}
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return rc
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}
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func (rc *PerfResultCache) Get(commitNum int) *PerfResult {
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rc.Next(commitNum) // fetch the commit, if necessary
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return rc.results[commitNum]
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}
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// Next returns the next PerfResult for the commit commitNum.
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// It does not care whether the result has any data, failed or whatever.
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func (rc *PerfResultCache) Next(commitNum int) (*PerfResult, error) {
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// See if we have next result in the cache.
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next := -1
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for ci := range rc.results {
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if rc.newer {
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if ci > commitNum && (next == -1 || ci < next) {
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next = ci
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}
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} else {
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if ci < commitNum && (next == -1 || ci > next) {
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next = ci
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}
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}
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}
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if next != -1 {
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return rc.results[next], nil
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}
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// Fetch next result from datastore.
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res := new(PerfResult)
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_, err := rc.iter.Next(res)
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if err == datastore.Done {
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return nil, nil
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}
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if err != nil {
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return nil, fmt.Errorf("fetching perf results: %v", err)
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}
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if (rc.newer && res.CommitNum < commitNum) || (!rc.newer && res.CommitNum > commitNum) {
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rc.c.Errorf("PerfResultCache.Next: bad commit num")
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}
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rc.results[res.CommitNum] = res
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return res, nil
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}
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// NextForComparison returns PerfResult which we need to use for performance comprison.
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// It skips failed results, but does not skip results with no data.
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func (rc *PerfResultCache) NextForComparison(commitNum int, builder string) (*PerfResult, error) {
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for {
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res, err := rc.Next(commitNum)
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if err != nil {
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return nil, err
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}
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if res == nil {
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return nil, nil
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}
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if res.CommitNum == commitNum {
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continue
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}
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parsed := res.ParseData()
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if builder != "" {
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// Comparing for a particular builder.
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// This is used in perf_changes and in email notifications.
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b := parsed[builder]
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if b == nil || b["meta-done"] == nil {
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// No results yet, must not do the comparison.
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return nil, nil
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}
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if b["meta-done"].OK {
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// Have complete results, compare.
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return res, nil
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}
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} else {
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// Comparing for all builders, find a result with at least
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// one successful meta-done.
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// This is used in perf_detail.
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for _, benchs := range parsed {
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if data := benchs["meta-done"]; data != nil && data.OK {
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return res, nil
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}
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}
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}
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// Failed, try next result.
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commitNum = res.CommitNum
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}
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}
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type PerfChange struct {
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Builder string
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Bench string
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Metric string
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Old uint64
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New uint64
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Diff float64
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}
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func significantPerfChanges(pc *PerfConfig, builder string, prevRes, res *PerfResult) (changes []*PerfChange) {
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// First, collect all significant changes.
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for builder1, benchmarks1 := range res.ParseData() {
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if builder != "" && builder != builder1 {
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// This is not the builder you're looking for, Luke.
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continue
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}
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benchmarks0 := prevRes.ParseData()[builder1]
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if benchmarks0 == nil {
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continue
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}
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for benchmark, data1 := range benchmarks1 {
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data0 := benchmarks0[benchmark]
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if data0 == nil {
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continue
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}
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for metric, val := range data1.Metrics {
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val0 := data0.Metrics[metric]
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if val0 == 0 {
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continue
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}
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diff := perfDiff(val0, val)
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noise := pc.NoiseLevel(builder, benchmark, metric)
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if isNoise(diff, noise) {
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continue
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}
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ch := &PerfChange{Builder: builder, Bench: benchmark, Metric: metric, Old: val0, New: val, Diff: diff}
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changes = append(changes, ch)
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}
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}
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}
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// Then, strip non-repeatable changes (flakes).
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// The hypothesis is that a real change must show up with the majority of GOMAXPROCS values.
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majority := len(pc.ProcList(builder))/2 + 1
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cnt := make(map[string]int)
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for _, ch := range changes {
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b, _ := splitBench(ch.Bench)
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name := b + "|" + ch.Metric
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if ch.Diff < 0 {
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name += "--"
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}
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cnt[name] = cnt[name] + 1
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}
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for i := 0; i < len(changes); i++ {
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ch := changes[i]
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b, _ := splitBench(ch.Bench)
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name := b + "|" + ch.Metric
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if cnt[name] >= majority {
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continue
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}
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if cnt[name+"--"] >= majority {
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continue
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}
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// Remove flake.
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last := len(changes) - 1
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changes[i] = changes[last]
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changes = changes[:last]
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i--
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}
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return changes
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}
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// orderPrefTodo reorders commit nums for benchmarking todo.
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// The resulting order is somewhat tricky. We want 2 things:
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// 1. benchmark sequentially backwards (this provides information about most
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// recent changes, and allows to estimate noise levels)
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// 2. benchmark old commits in "scatter" order (this allows to quickly gather
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// brief information about thousands of old commits)
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// So this function interleaves the two orders.
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func orderPrefTodo(nums []int) []int {
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sort.Ints(nums)
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n := len(nums)
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pow2 := uint32(0) // next power-of-two that is >= n
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npow2 := 0
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for npow2 <= n {
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pow2++
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npow2 = 1 << pow2
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}
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res := make([]int, n)
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resPos := n - 1 // result array is filled backwards
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present := make([]bool, n) // denotes values that already present in result array
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for i0, i1 := n-1, 0; i0 >= 0 || i1 < npow2; {
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// i0 represents "benchmark sequentially backwards" sequence
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// find the next commit that is not yet present and add it
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for cnt := 0; cnt < 2; cnt++ {
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for ; i0 >= 0; i0-- {
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if !present[i0] {
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present[i0] = true
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res[resPos] = nums[i0]
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resPos--
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i0--
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break
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}
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}
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}
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// i1 represents "scatter order" sequence
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// find the next commit that is not yet present and add it
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for ; i1 < npow2; i1++ {
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// do the "recursive split-ordering" trick
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idx := 0 // bitwise reverse of i1
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for j := uint32(0); j <= pow2; j++ {
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if (i1 & (1 << j)) != 0 {
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idx = idx | (1 << (pow2 - j - 1))
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}
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}
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if idx < n && !present[idx] {
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present[idx] = true
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res[resPos] = nums[idx]
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resPos--
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i1++
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break
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}
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}
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}
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// The above can't possibly be correct. Do dump check.
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res2 := make([]int, n)
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copy(res2, res)
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sort.Ints(res2)
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for i := range res2 {
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if res2[i] != nums[i] {
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panic(fmt.Sprintf("diff at %v: expect %v, want %v\nwas: %v\n become: %v",
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i, nums[i], res2[i], nums, res2))
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}
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}
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return res
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}
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