package storage import ( "math/rand" "testing" ) const defaultPrecisionBits = 4 func TestInmemoryPartInitFromRows(t *testing.T) { testInmemoryPartInitFromRows(t, []rawRow{ { TSID: TSID{ MetricID: 234, }, Timestamp: 123, Value: 456.789, PrecisionBits: defaultPrecisionBits, }, }, 1) var rows []rawRow var r rawRow // Test a single tsid. rows = rows[:0] initTestTSID(&r.TSID) r.PrecisionBits = defaultPrecisionBits for i := uint64(0); i < 1e4; i++ { r.Timestamp = int64(rand.NormFloat64() * 1e7) r.Value = rand.NormFloat64() * 100 rows = append(rows, r) } testInmemoryPartInitFromRows(t, rows, 2) // Test distinct tsids. rows = rows[:0] for i := 0; i < 1e4; i++ { initTestTSID(&r.TSID) r.TSID.MetricID = uint64(i) r.Timestamp = int64(rand.NormFloat64() * 1e7) r.Value = rand.NormFloat64() * 100 r.PrecisionBits = uint8(i%64) + 1 rows = append(rows, r) } testInmemoryPartInitFromRows(t, rows, 1e4) } func testInmemoryPartInitFromRows(t *testing.T, rows []rawRow, blocksCount int) { t.Helper() minTimestamp := int64((1 << 63) - 1) maxTimestamp := int64(-1 << 63) for i := range rows { r := &rows[i] if r.Timestamp < minTimestamp { minTimestamp = r.Timestamp } if r.Timestamp > maxTimestamp { maxTimestamp = r.Timestamp } } var mp inmemoryPart mp.InitFromRows(rows) if int(mp.ph.RowsCount) != len(rows) { t.Fatalf("unexpected rows count; got %d; expecting %d", mp.ph.RowsCount, len(rows)) } if mp.ph.MinTimestamp != minTimestamp { t.Fatalf("unexpected minTimestamp; got %d; expecting %d", mp.ph.MinTimestamp, minTimestamp) } if mp.ph.MaxTimestamp != maxTimestamp { t.Fatalf("unexpected maxTimestamp; got %d; expecting %d", mp.ph.MaxTimestamp, maxTimestamp) } var bsr blockStreamReader bsr.InitFromInmemoryPart(&mp) rowsCount := 0 blockNum := 0 prevTSID := TSID{} for bsr.NextBlock() { bh := &bsr.Block.bh if bh.TSID.Less(&prevTSID) { t.Fatalf("TSID=%+v for the current block cannot be smaller than the TSID=%+v for the previous block", &bh.TSID, &prevTSID) } prevTSID = bh.TSID if bh.MinTimestamp < minTimestamp { t.Fatalf("unexpected MinTimestamp in the block %+v; got %d; cannot be smaller than %d", &bsr.Block, bh.MinTimestamp, minTimestamp) } if bh.MaxTimestamp > maxTimestamp { t.Fatalf("unexpected MaxTimestamp in the block %+v; got %d; cannot be higher than %d", &bsr.Block, bh.MaxTimestamp, maxTimestamp) } if err := bsr.Block.UnmarshalData(); err != nil { t.Fatalf("cannot unmarshal block #%d: %s", blockNum, err) } prevTimestamp := bh.MinTimestamp blockRowsCount := 0 for bsr.Block.nextRow() { timestamp := bsr.Block.timestamps[bsr.Block.nextIdx-1] if timestamp < bh.MinTimestamp { t.Fatalf("unexpected Timestamp in the row; got %d; cannot be smaller than %d", timestamp, bh.MinTimestamp) } if timestamp > bsr.Block.bh.MaxTimestamp { t.Fatalf("unexpected Timestamp in the row; got %d; cannot be higher than %d", timestamp, bh.MaxTimestamp) } if timestamp < prevTimestamp { t.Fatalf("too small Timestamp in the row; got %d; cannot be smaller than the timestamp from the previous row: %d", timestamp, prevTimestamp) } prevTimestamp = timestamp blockRowsCount++ } if blockRowsCount != int(bh.RowsCount) { t.Fatalf("unexpected number of rows in the block %v; got %d; want %d", &bsr.Block, blockRowsCount, bh.RowsCount) } rowsCount += blockRowsCount blockNum++ } if err := bsr.Error(); err != nil { t.Fatalf("unexpected error after reading %d blocks from block stream: %s", blockNum, err) } if blockNum != blocksCount { t.Fatalf("unexpected number of blocks read; got %d; want %d", blockNum, blocksCount) } if rowsCount != len(rows) { t.Fatalf("unexpected number of rows; got %d; want %d", rowsCount, len(rows)) } }