| // Copyright 2017 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| // Loosely based on github.com/aclements/go-misc/benchplot |
| |
| package app |
| |
| import ( |
| "bytes" |
| "encoding/json" |
| "fmt" |
| "html/template" |
| "io/ioutil" |
| "math" |
| "net/http" |
| "path/filepath" |
| "sort" |
| "strconv" |
| "strings" |
| |
| "github.com/aclements/go-gg/generic/slice" |
| "github.com/aclements/go-gg/ggstat" |
| "github.com/aclements/go-gg/table" |
| "golang.org/x/net/context" |
| "golang.org/x/perf/storage" |
| ) |
| |
| // trend handles /trend. |
| // With no query, it prints the list of recent uploads containg a "trend" key. |
| // With a query, it shows a graph of the matching benchmark results. |
| func (a *App) trend(w http.ResponseWriter, r *http.Request) { |
| ctx := requestContext(r) |
| |
| if err := r.ParseForm(); err != nil { |
| http.Error(w, err.Error(), 500) |
| return |
| } |
| |
| q := r.Form.Get("q") |
| |
| tmpl, err := ioutil.ReadFile(filepath.Join(a.BaseDir, "template/trend.html")) |
| if err != nil { |
| http.Error(w, err.Error(), 500) |
| return |
| } |
| |
| t, err := template.New("main").Parse(string(tmpl)) |
| if err != nil { |
| http.Error(w, err.Error(), 500) |
| return |
| } |
| |
| opt := plotOptions{ |
| x: r.Form.Get("x"), |
| raw: r.Form.Get("raw") == "1", |
| } |
| |
| data := a.trendQuery(ctx, q, opt) |
| |
| w.Header().Set("Content-Type", "text/html; charset=utf-8") |
| if err := t.Execute(w, data); err != nil { |
| http.Error(w, err.Error(), 500) |
| return |
| } |
| } |
| |
| // trendData is the struct passed to the trend.html template. |
| type trendData struct { |
| Q string |
| Error string |
| TrendUploads []storage.UploadInfo |
| PlotData template.JS |
| PlotType template.JS |
| } |
| |
| // trendData computes the values for the template and returns a trendData for display. |
| func (a *App) trendQuery(ctx context.Context, q string, opt plotOptions) *trendData { |
| d := &trendData{Q: q} |
| if q == "" { |
| ul := a.StorageClient.ListUploads(ctx, `trend>`, []string{"by", "upload-time", "trend"}, 16) |
| defer ul.Close() |
| for ul.Next() { |
| d.TrendUploads = append(d.TrendUploads, ul.Info()) |
| } |
| if err := ul.Err(); err != nil { |
| errorf(ctx, "failed to fetch recent trend uploads: %v", err) |
| } |
| return d |
| } |
| |
| // TODO(quentin): Chunk query based on matching upload IDs. |
| res := a.StorageClient.Query(ctx, q) |
| defer res.Close() |
| t, resultCols := queryToTable(res) |
| if err := res.Err(); err != nil { |
| errorf(ctx, "failed to read query results: %v", err) |
| d.Error = fmt.Sprintf("failed to read query results: %v", err) |
| return d |
| } |
| for _, col := range []string{"commit", "commit-time", "branch", "name"} { |
| if !hasStringColumn(t, col) { |
| d.Error = fmt.Sprintf("results missing %q label", col) |
| return d |
| } |
| } |
| if opt.x != "" && !hasStringColumn(t, opt.x) { |
| d.Error = fmt.Sprintf("results missing x label %q", opt.x) |
| return d |
| } |
| data := plot(t, resultCols, opt) |
| |
| // TODO(quentin): Give the user control over across vs. plotting in separate graphs, instead of only showing one graph with ns/op for each benchmark. |
| |
| if opt.raw { |
| data = table.MapTables(data, func(_ table.GroupID, t *table.Table) *table.Table { |
| // From http://tristen.ca/hcl-picker/#/hlc/9/1.13/F1796F/B3EC6C |
| colors := []string{"#F1796F", "#B3EC6C", "#F67E9D", "#6CEB98", "#E392CB", "#0AE4C6", "#B7ABEC", "#16D7E9", "#75C4F7"} |
| colorIdx := 0 |
| partColors := make(map[string]string) |
| styles := make([]string, t.Len()) |
| for i, part := range t.MustColumn("upload-part").([]string) { |
| if _, ok := partColors[part]; !ok { |
| partColors[part] = colors[colorIdx] |
| colorIdx++ |
| if colorIdx >= len(colors) { |
| colorIdx = 0 |
| } |
| } |
| styles[i] = "color: " + partColors[part] |
| } |
| return table.NewBuilder(t).Add("style", styles).Done() |
| }) |
| columns := []column{ |
| {Name: "commit-index"}, |
| {Name: "result"}, |
| {Name: "style", Role: "style"}, |
| {Name: "commit", Role: "tooltip"}, |
| } |
| d.PlotData = tableToJS(data.Table(data.Tables()[0]), columns) |
| d.PlotType = "ScatterChart" |
| return d |
| } |
| |
| // Pivot all of the benchmarks into columns of a single table. |
| ar := &aggResults{ |
| Across: "name", |
| Values: []string{"filtered normalized mean result", "normalized mean result", "normalized median result", "normalized min result", "normalized max result"}, |
| } |
| data = ggstat.Agg("commit", "branch", "commit-index")(ar.agg).F(data) |
| |
| tables := data.Tables() |
| infof(ctx, "tables: %v", tables) |
| columns := []column{ |
| {Name: "commit-index"}, |
| {Name: "commit", Role: "tooltip"}, |
| } |
| for _, prefix := range ar.Prefixes { |
| if len(ar.Prefixes) == 1 { |
| columns = append(columns, |
| column{Name: prefix + "/normalized mean result"}, |
| column{Name: prefix + "/normalized min result", Role: "interval"}, |
| column{Name: prefix + "/normalized max result", Role: "interval"}, |
| column{Name: prefix + "/normalized median result"}, |
| ) |
| } |
| columns = append(columns, |
| column{Name: prefix + "/filtered normalized mean result"}, |
| ) |
| } |
| d.PlotData = tableToJS(data.Table(tables[0]), columns) |
| d.PlotType = "LineChart" |
| return d |
| } |
| |
| // queryToTable converts the result of a Query into a Table for later processing. |
| // Each label is placed in a column named after the key. |
| // Each metric is placed in a separate result column named after the unit. |
| func queryToTable(q *storage.Query) (t *table.Table, resultCols []string) { |
| var names []string |
| labels := make(map[string][]string) |
| results := make(map[string][]float64) |
| i := 0 |
| for q.Next() { |
| res := q.Result() |
| // TODO(quentin): Handle multiple results with the same name but different NameLabels. |
| names = append(names, res.NameLabels["name"]) |
| for k := range res.Labels { |
| if labels[k] == nil { |
| labels[k] = make([]string, i) |
| } |
| } |
| for k := range labels { |
| labels[k] = append(labels[k], res.Labels[k]) |
| } |
| f := strings.Fields(res.Content) |
| metrics := make(map[string]float64) |
| for j := 2; j+2 <= len(f); j += 2 { |
| val, err := strconv.ParseFloat(f[j], 64) |
| if err != nil { |
| continue |
| } |
| unit := f[j+1] |
| if results[unit] == nil { |
| results[unit] = make([]float64, i) |
| } |
| metrics[unit] = val |
| } |
| for k := range results { |
| results[k] = append(results[k], metrics[k]) |
| } |
| i++ |
| } |
| |
| tab := new(table.Builder).Add("name", names) |
| |
| for k, v := range labels { |
| tab.Add(k, v) |
| } |
| for k, v := range results { |
| tab.Add(k, v) |
| resultCols = append(resultCols, k) |
| } |
| |
| sort.Strings(resultCols) |
| |
| return tab.Done(), resultCols |
| } |
| |
| type plotOptions struct { |
| // x names the column to use for the X axis. |
| // If unspecified, "commit" is used. |
| x string |
| // raw will return the raw points without any averaging/smoothing. |
| // The only result column will be "result". |
| raw bool |
| // correlate will use the string column "upload-part" as an indication that results came from the same machine. Commits present in multiple parts will be used to correlate results. |
| correlate bool |
| } |
| |
| // plot takes raw benchmark data in t and produces a Grouping object containing filtered, normalized metric results for a graph. |
| // t must contain the string columns "commit", "commit-time", "branch". resultCols specifies the names of float64 columns containing metric results. |
| // The returned grouping has columns "commit", "commit-time", "commit-index", "branch", "metric", "normalized min result", "normalized max result", "normalized mean result", "filtered normalized mean result". |
| // This is roughly the algorithm from github.com/aclements/go-misc/benchplot |
| func plot(t table.Grouping, resultCols []string, opt plotOptions) table.Grouping { |
| nrows := len(table.GroupBy(t, "name").Tables()) |
| |
| // Turn ordered commit-time into a "commit-index" column. |
| if opt.x == "" { |
| opt.x = "commit" |
| } |
| // TODO(quentin): One SortBy call should do this, but |
| // sometimes it seems to sort by the second column instead of |
| // the first. Do them in separate steps until SortBy is fixed. |
| t = table.SortBy(t, opt.x) |
| t = table.SortBy(t, "commit-time") |
| t = colIndex{col: opt.x}.F(t) |
| |
| // Unpivot all of the metrics into one column. |
| t = table.Unpivot(t, "metric", "result", resultCols...) |
| |
| // TODO(quentin): Let user choose which metric(s) to keep. |
| t = table.FilterEq(t, "metric", "ns/op") |
| |
| if opt.raw { |
| return t |
| } |
| |
| // Average each result at each commit (but keep columns names |
| // the same to keep things easier to read). |
| t = ggstat.Agg("commit", "name", "metric", "branch", "commit-index")(ggstat.AggMean("result"), ggstat.AggQuantile("median", .5, "result"), ggstat.AggMin("result"), ggstat.AggMax("result")).F(t) |
| y := "mean result" |
| |
| // Normalize to earliest commit on master. It's important to |
| // do this before the geomean if there are commits missing. |
| // Unfortunately, that also means we have to *temporarily* |
| // group by name and metric, since the geomean needs to be |
| // done on a different grouping. |
| t = table.GroupBy(t, "name", "metric") |
| t = ggstat.Normalize{X: "branch", By: firstMasterIndex, Cols: []string{"mean result", "median result", "max result", "min result"}, DenomCols: []string{"mean result", "mean result", "mean result", "mean result"}}.F(t) |
| y = "normalized " + y |
| for _, col := range []string{"mean result", "median result", "max result", "min result"} { |
| t = table.Remove(t, col) |
| } |
| t = table.Ungroup(table.Ungroup(t)) |
| |
| // Compute geomean for each metric at each commit if there's |
| // more than one benchmark. |
| if len(table.GroupBy(t, "name").Tables()) > 1 { |
| gt := removeNaNs(t, y) |
| gt = ggstat.Agg("commit", "metric", "branch", "commit-index")(ggstat.AggGeoMean(y, "normalized median result"), ggstat.AggMin("normalized min result"), ggstat.AggMax("normalized max result")).F(gt) |
| gt = table.MapTables(gt, func(_ table.GroupID, t *table.Table) *table.Table { |
| return table.NewBuilder(t).AddConst("name", " geomean").Done() |
| }) |
| gt = table.Rename(gt, "geomean "+y, y) |
| gt = table.Rename(gt, "geomean normalized median result", "normalized median result") |
| gt = table.Rename(gt, "min normalized min result", "normalized min result") |
| gt = table.Rename(gt, "max normalized max result", "normalized max result") |
| t = table.Concat(t, gt) |
| nrows++ |
| } |
| |
| // Filter the data to reduce noise. |
| t = table.GroupBy(t, "name", "metric") |
| t = kza{y, 15, 3}.F(t) |
| y = "filtered " + y |
| t = table.Ungroup(table.Ungroup(t)) |
| |
| return t |
| } |
| |
| // hasStringColumn returns whether t has a []string column called col. |
| func hasStringColumn(t table.Grouping, col string) bool { |
| c := t.Table(t.Tables()[0]).Column(col) |
| if c == nil { |
| return false |
| } |
| _, ok := c.([]string) |
| return ok |
| } |
| |
| // aggResults pivots the table, taking the columns in Values and making a new column for each distinct value in Across. |
| // aggResults("in", []string{"value1", "value2"} will reshape a table like |
| // in value1 value2 |
| // one 1 2 |
| // two 3 4 |
| // and will turn in into a table like |
| // one/value1 one/value2 two/value1 two/value2 |
| // 1 2 3 4 |
| // across columns must be []string, and value columns must be []float64. |
| type aggResults struct { |
| // Across is the name of the column whose values are the column prefix. |
| Across string |
| // Values is the name of the columns to split. |
| Values []string |
| // Prefixes is filled in after calling agg with the name of each prefix that was found. |
| Prefixes []string |
| } |
| |
| // agg implements ggstat.Aggregator and allows using a with ggstat.Agg. |
| func (a *aggResults) agg(input table.Grouping, output *table.Builder) { |
| var prefixes []string |
| rows := len(input.Tables()) |
| columns := make(map[string][]float64) |
| for i, gid := range input.Tables() { |
| var vs [][]float64 |
| for _, col := range a.Values { |
| vs = append(vs, input.Table(gid).MustColumn(col).([]float64)) |
| } |
| as := input.Table(gid).MustColumn(a.Across).([]string) |
| for j, prefix := range as { |
| for k, col := range a.Values { |
| key := prefix + "/" + col |
| if columns[key] == nil { |
| if k == 0 { |
| // First time we've seen this prefix, track it. |
| prefixes = append(prefixes, prefix) |
| } |
| columns[key] = make([]float64, rows) |
| for i := range columns[key] { |
| columns[key][i] = math.NaN() |
| } |
| } |
| columns[key][i] = vs[k][j] |
| } |
| } |
| } |
| sort.Strings(prefixes) |
| a.Prefixes = prefixes |
| for _, prefix := range prefixes { |
| for _, col := range a.Values { |
| key := prefix + "/" + col |
| output.Add(key, columns[key]) |
| } |
| } |
| } |
| |
| // firstMasterIndex returns the index of the first commit on master. |
| // This is used to find the value to normalize against. |
| func firstMasterIndex(bs []string) int { |
| return slice.Index(bs, "master") |
| } |
| |
| // colIndex is a gg.Stat that adds a column called "commit-index" sequentially counting unique values of the column "commit". |
| type colIndex struct { |
| // col specifies the string column to assign indices to. If unspecified, "commit" will be used. |
| col string |
| } |
| |
| func (ci colIndex) F(g table.Grouping) table.Grouping { |
| if ci.col == "" { |
| ci.col = "commit" |
| } |
| return table.MapTables(g, func(_ table.GroupID, t *table.Table) *table.Table { |
| idxs := make([]int, t.Len()) |
| last, idx := "", -1 |
| for i, hash := range t.MustColumn(ci.col).([]string) { |
| if hash != last { |
| idx++ |
| last = hash |
| } |
| idxs[i] = idx |
| } |
| t = table.NewBuilder(t).Add("commit-index", idxs).Done() |
| |
| return t |
| }) |
| } |
| |
| // removeNaNs returns a new Grouping with rows containg NaN in col removed. |
| func removeNaNs(g table.Grouping, col string) table.Grouping { |
| return table.Filter(g, func(result float64) bool { |
| return !math.IsNaN(result) |
| }, col) |
| } |
| |
| // kza implements adaptive Kolmogorov-Zurbenko filtering on the data in X. |
| type kza struct { |
| X string |
| M, K int |
| } |
| |
| func (k kza) F(g table.Grouping) table.Grouping { |
| return table.MapTables(g, func(_ table.GroupID, t *table.Table) *table.Table { |
| var xs []float64 |
| slice.Convert(&xs, t.MustColumn(k.X)) |
| nxs := AdaptiveKolmogorovZurbenko(xs, k.M, k.K) |
| return table.NewBuilder(t).Add("filtered "+k.X, nxs).Done() |
| }) |
| } |
| |
| // column represents a column in a google.visualization.DataTable |
| type column struct { |
| Name string `json:"id"` |
| Role string `json:"role,omitempty"` |
| // These fields are filled in by tableToJS if unspecified. |
| Type string `json:"type"` |
| Label string `json:"label"` |
| } |
| |
| // tableToJS converts a Table to a javascript literal which can be passed to "new google.visualization.DataTable". |
| func tableToJS(t *table.Table, columns []column) template.JS { |
| var out bytes.Buffer |
| fmt.Fprint(&out, "{cols: [") |
| var slices []table.Slice |
| for i, c := range columns { |
| if i > 0 { |
| fmt.Fprint(&out, ",\n") |
| } |
| col := t.Column(c.Name) |
| slices = append(slices, col) |
| if c.Type == "" { |
| switch col.(type) { |
| case []string: |
| c.Type = "string" |
| case []int, []float64: |
| c.Type = "number" |
| default: |
| // Matches the hardcoded string below. |
| c.Type = "string" |
| } |
| } |
| if c.Label == "" { |
| c.Label = c.Name |
| } |
| data, err := json.Marshal(c) |
| if err != nil { |
| panic(err) |
| } |
| out.Write(data) |
| } |
| fmt.Fprint(&out, "],\nrows: [") |
| for i := 0; i < t.Len(); i++ { |
| if i > 0 { |
| fmt.Fprint(&out, ",\n") |
| } |
| fmt.Fprint(&out, "{c:[") |
| for j := range columns { |
| if j > 0 { |
| fmt.Fprint(&out, ", ") |
| } |
| fmt.Fprint(&out, "{v: ") |
| var value []byte |
| var err error |
| switch column := slices[j].(type) { |
| case []string: |
| value, err = json.Marshal(column[i]) |
| case []int: |
| value, err = json.Marshal(column[i]) |
| case []float64: |
| value, err = json.Marshal(column[i]) |
| default: |
| value = []byte(`"unknown column type"`) |
| } |
| if err != nil { |
| panic(err) |
| } |
| out.Write(value) |
| fmt.Fprint(&out, "}") |
| } |
| fmt.Fprint(&out, "]}") |
| } |
| fmt.Fprint(&out, "]}") |
| return template.JS(out.String()) |
| } |