ceph-csi/vendor/github.com/antlr4-go/antlr/v4/statistics.go

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//go:build antlr.stats
package antlr
import (
"fmt"
"log"
"os"
"path/filepath"
"sort"
"strconv"
"sync"
)
// This file allows the user to collect statistics about the runtime of the ANTLR runtime. It is not enabled by default
// and so incurs no time penalty. To enable it, you must build the runtime with the antlr.stats build tag.
//
// Tells various components to collect statistics - because it is only true when this file is included, it will
// allow the compiler to completely eliminate all the code that is only used when collecting statistics.
const collectStats = true
// goRunStats is a collection of all the various data the ANTLR runtime has collected about a particular run.
// It is exported so that it can be used by others to look for things that are not already looked for in the
// runtime statistics.
type goRunStats struct {
// jStats is a slice of all the [JStatRec] records that have been created, which is one for EVERY collection created
// during a run. It is exported so that it can be used by others to look for things that are not already looked for
// within this package.
//
jStats []*JStatRec
jStatsLock sync.RWMutex
topN int
topNByMax []*JStatRec
topNByUsed []*JStatRec
unusedCollections map[CollectionSource]int
counts map[CollectionSource]int
}
const (
collectionsFile = "collections"
)
var (
Statistics = &goRunStats{
topN: 10,
}
)
type statsOption func(*goRunStats) error
// Configure allows the statistics system to be configured as the user wants and override the defaults
func (s *goRunStats) Configure(options ...statsOption) error {
for _, option := range options {
err := option(s)
if err != nil {
return err
}
}
return nil
}
// WithTopN sets the number of things to list in the report when we are concerned with the top N things.
//
// For example, if you want to see the top 20 collections by size, you can do:
//
// antlr.Statistics.Configure(antlr.WithTopN(20))
func WithTopN(topN int) statsOption {
return func(s *goRunStats) error {
s.topN = topN
return nil
}
}
// Analyze looks through all the statistical records and computes all the outputs that might be useful to the user.
//
// The function gathers and analyzes a number of statistics about any particular run of
// an ANTLR generated recognizer. In the vast majority of cases, the statistics are only
// useful to maintainers of ANTLR itself, but they can be useful to users as well. They may be
// especially useful in tracking down bugs or performance problems when an ANTLR user could
// supply the output from this package, but cannot supply the grammar file(s) they are using, even
// privately to the maintainers.
//
// The statistics are gathered by the runtime itself, and are not gathered by the parser or lexer, but the user
// must call this function their selves to analyze the statistics. This is because none of the infrastructure is
// extant unless the calling program is built with the antlr.stats tag like so:
//
// go build -tags antlr.stats .
//
// When a program is built with the antlr.stats tag, the Statistics object is created and available outside
// the package. The user can then call the [Statistics.Analyze] function to analyze the statistics and then call the
// [Statistics.Report] function to report the statistics.
//
// Please forward any questions about this package to the ANTLR discussion groups on GitHub or send to them to
// me [Jim Idle] directly at jimi@idle.ws
//
// [Jim Idle]: https:://github.com/jim-idle
func (s *goRunStats) Analyze() {
// Look for anything that looks strange and record it in our local maps etc for the report to present it
//
s.CollectionAnomalies()
s.TopNCollections()
}
// TopNCollections looks through all the statistical records and gathers the top ten collections by size.
func (s *goRunStats) TopNCollections() {
// Let's sort the stat records by MaxSize
//
sort.Slice(s.jStats, func(i, j int) bool {
return s.jStats[i].MaxSize > s.jStats[j].MaxSize
})
for i := 0; i < len(s.jStats) && i < s.topN; i++ {
s.topNByMax = append(s.topNByMax, s.jStats[i])
}
// Sort by the number of times used
//
sort.Slice(s.jStats, func(i, j int) bool {
return s.jStats[i].Gets+s.jStats[i].Puts > s.jStats[j].Gets+s.jStats[j].Puts
})
for i := 0; i < len(s.jStats) && i < s.topN; i++ {
s.topNByUsed = append(s.topNByUsed, s.jStats[i])
}
}
// Report dumps a markdown formatted report of all the statistics collected during a run to the given dir output
// path, which should represent a directory. Generated files will be prefixed with the given prefix and will be
// given a type name such as `anomalies` and a time stamp such as `2021-09-01T12:34:56` and a .md suffix.
func (s *goRunStats) Report(dir string, prefix string) error {
isDir, err := isDirectory(dir)
switch {
case err != nil:
return err
case !isDir:
return fmt.Errorf("output directory `%s` is not a directory", dir)
}
s.reportCollections(dir, prefix)
// Clean out any old data in case the user forgets
//
s.Reset()
return nil
}
func (s *goRunStats) Reset() {
s.jStats = nil
s.topNByUsed = nil
s.topNByMax = nil
}
func (s *goRunStats) reportCollections(dir, prefix string) {
cname := filepath.Join(dir, ".asciidoctor")
// If the file doesn't exist, create it, or append to the file
f, err := os.OpenFile(cname, os.O_APPEND|os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
log.Fatal(err)
}
_, _ = f.WriteString(`// .asciidoctorconfig
++++
<style>
body {
font-family: "Quicksand", "Montserrat", "Helvetica";
background-color: black;
}
</style>
++++`)
_ = f.Close()
fname := filepath.Join(dir, prefix+"_"+"_"+collectionsFile+"_"+".adoc")
// If the file doesn't exist, create it, or append to the file
f, err = os.OpenFile(fname, os.O_APPEND|os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
log.Fatal(err)
}
defer func(f *os.File) {
err := f.Close()
if err != nil {
log.Fatal(err)
}
}(f)
_, _ = f.WriteString("= Collections for " + prefix + "\n\n")
_, _ = f.WriteString("== Summary\n")
if s.unusedCollections != nil {
_, _ = f.WriteString("=== Unused Collections\n")
_, _ = f.WriteString("Unused collections incur a penalty for allocation that makes them a candidate for either\n")
_, _ = f.WriteString(" removal or optimization. If you are using a collection that is not used, you should\n")
_, _ = f.WriteString(" consider removing it. If you are using a collection that is used, but not very often,\n")
_, _ = f.WriteString(" you should consider using lazy initialization to defer the allocation until it is\n")
_, _ = f.WriteString(" actually needed.\n\n")
_, _ = f.WriteString("\n.Unused collections\n")
_, _ = f.WriteString(`[cols="<3,>1"]` + "\n\n")
_, _ = f.WriteString("|===\n")
_, _ = f.WriteString("| Type | Count\n")
for k, v := range s.unusedCollections {
_, _ = f.WriteString("| " + CollectionDescriptors[k].SybolicName + " | " + strconv.Itoa(v) + "\n")
}
f.WriteString("|===\n\n")
}
_, _ = f.WriteString("\n.Summary of Collections\n")
_, _ = f.WriteString(`[cols="<3,>1"]` + "\n\n")
_, _ = f.WriteString("|===\n")
_, _ = f.WriteString("| Type | Count\n")
for k, v := range s.counts {
_, _ = f.WriteString("| " + CollectionDescriptors[k].SybolicName + " | " + strconv.Itoa(v) + "\n")
}
_, _ = f.WriteString("| Total | " + strconv.Itoa(len(s.jStats)) + "\n")
_, _ = f.WriteString("|===\n\n")
_, _ = f.WriteString("\n.Summary of Top " + strconv.Itoa(s.topN) + " Collections by MaxSize\n")
_, _ = f.WriteString(`[cols="<1,<3,>1,>1,>1,>1"]` + "\n\n")
_, _ = f.WriteString("|===\n")
_, _ = f.WriteString("| Source | Description | MaxSize | EndSize | Puts | Gets\n")
for _, c := range s.topNByMax {
_, _ = f.WriteString("| " + CollectionDescriptors[c.Source].SybolicName + "\n")
_, _ = f.WriteString("| " + c.Description + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.MaxSize) + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.CurSize) + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.Puts) + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.Gets) + "\n")
_, _ = f.WriteString("\n")
}
_, _ = f.WriteString("|===\n\n")
_, _ = f.WriteString("\n.Summary of Top " + strconv.Itoa(s.topN) + " Collections by Access\n")
_, _ = f.WriteString(`[cols="<1,<3,>1,>1,>1,>1,>1"]` + "\n\n")
_, _ = f.WriteString("|===\n")
_, _ = f.WriteString("| Source | Description | MaxSize | EndSize | Puts | Gets | P+G\n")
for _, c := range s.topNByUsed {
_, _ = f.WriteString("| " + CollectionDescriptors[c.Source].SybolicName + "\n")
_, _ = f.WriteString("| " + c.Description + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.MaxSize) + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.CurSize) + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.Puts) + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.Gets) + "\n")
_, _ = f.WriteString("| " + strconv.Itoa(c.Gets+c.Puts) + "\n")
_, _ = f.WriteString("\n")
}
_, _ = f.WriteString("|===\n\n")
}
// AddJStatRec adds a [JStatRec] record to the [goRunStats] collection when build runtimeConfig antlr.stats is enabled.
func (s *goRunStats) AddJStatRec(rec *JStatRec) {
s.jStatsLock.Lock()
defer s.jStatsLock.Unlock()
s.jStats = append(s.jStats, rec)
}
// CollectionAnomalies looks through all the statistical records and gathers any anomalies that have been found.
func (s *goRunStats) CollectionAnomalies() {
s.jStatsLock.RLock()
defer s.jStatsLock.RUnlock()
s.counts = make(map[CollectionSource]int, len(s.jStats))
for _, c := range s.jStats {
// Accumlate raw counts
//
s.counts[c.Source]++
// Look for allocated but unused collections and count them
if c.MaxSize == 0 && c.Puts == 0 {
if s.unusedCollections == nil {
s.unusedCollections = make(map[CollectionSource]int)
}
s.unusedCollections[c.Source]++
}
if c.MaxSize > 6000 {
fmt.Println("Collection ", c.Description, "accumulated a max size of ", c.MaxSize, " - this is probably too large and indicates a poorly formed grammar")
}
}
}