package storage import ( "fmt" "math/rand" "testing" ) func BenchmarkMergeBlockStreamsTwoSourcesWorstCase(b *testing.B) { benchmarkMergeBlockStreams(b, benchTwoSourcesWorstCaseMPS, benchTwoSourcesWorstCaseMPSRowsPerLoop) } func BenchmarkMergeBlockStreamsTwoSourcesBestCase(b *testing.B) { benchmarkMergeBlockStreams(b, benchTwoSourcesBestCaseMPS, benchTwoSourcesBestCaseMPSRowsPerLoop) } func BenchmarkMergeBlockStreamsFourSourcesWorstCase(b *testing.B) { benchmarkMergeBlockStreams(b, benchFourSourcesWorstCaseMPS, benchFourSourcesWorstCaseMPSRowsPerLoop) } func BenchmarkMergeBlockStreamsFourSourcesBestCase(b *testing.B) { benchmarkMergeBlockStreams(b, benchFourSourcesBestCaseMPS, benchFourSourcesBestCaseMPSRowsPerLoop) } func benchmarkMergeBlockStreams(b *testing.B, mps []*inmemoryPart, rowsPerLoop int64) { var rowsMerged, rowsDeleted uint64 strg := newTestStorage() b.ReportAllocs() b.SetBytes(rowsPerLoop) b.RunParallel(func(pb *testing.PB) { var bsw blockStreamWriter var mpOut inmemoryPart bsrs := make([]*blockStreamReader, len(mps)) for i := range mps { var bsr blockStreamReader bsrs[i] = &bsr } for pb.Next() { for i, mp := range mps { bsrs[i].MustInitFromInmemoryPart(mp) } mpOut.Reset() bsw.MustInitFromInmemoryPart(&mpOut, -5) if err := mergeBlockStreams(&mpOut.ph, &bsw, bsrs, nil, strg, 0, &rowsMerged, &rowsDeleted); err != nil { panic(fmt.Errorf("cannot merge block streams: %w", err)) } } }) } var benchTwoSourcesWorstCaseMPS = func() []*inmemoryPart { rng := rand.New(rand.NewSource(1)) var rows []rawRow var r rawRow r.PrecisionBits = defaultPrecisionBits for i := 0; i < maxRowsPerBlock/2-1; i++ { r.Value = rng.NormFloat64() r.Timestamp = rng.Int63n(1e12) rows = append(rows, r) } mp := newTestInmemoryPart(rows) return []*inmemoryPart{mp, mp} }() const benchTwoSourcesWorstCaseMPSRowsPerLoop = (maxRowsPerBlock - 2) var benchTwoSourcesBestCaseMPS = func() []*inmemoryPart { var r rawRow var mps []*inmemoryPart for i := 0; i < 2; i++ { var rows []rawRow r.PrecisionBits = defaultPrecisionBits r.TSID.MetricID = uint64(i) for j := 0; j < maxRowsPerBlock; j++ { rows = append(rows, r) } mp := newTestInmemoryPart(rows) mps = append(mps, mp) } return mps }() const benchTwoSourcesBestCaseMPSRowsPerLoop = 2 * maxRowsPerBlock var benchFourSourcesWorstCaseMPS = func() []*inmemoryPart { rng := rand.New(rand.NewSource(1)) var rows []rawRow var r rawRow r.PrecisionBits = defaultPrecisionBits for i := 0; i < maxRowsPerBlock/2-1; i++ { r.Value = rng.NormFloat64() r.Timestamp = rng.Int63n(1e12) rows = append(rows, r) } mp := newTestInmemoryPart(rows) return []*inmemoryPart{mp, mp, mp, mp} }() const benchFourSourcesWorstCaseMPSRowsPerLoop = 2 * (maxRowsPerBlock - 2) var benchFourSourcesBestCaseMPS = func() []*inmemoryPart { var r rawRow var mps []*inmemoryPart for i := 0; i < 4; i++ { var rows []rawRow r.PrecisionBits = defaultPrecisionBits r.TSID.MetricID = uint64(i) for j := 0; j < maxRowsPerBlock; j++ { rows = append(rows, r) } mp := newTestInmemoryPart(rows) mps = append(mps, mp) } return mps }() const benchFourSourcesBestCaseMPSRowsPerLoop = 4 * maxRowsPerBlock