package streamaggr import ( "fmt" "reflect" "sync" "testing" ) func TestDedupAggrSerial(t *testing.T) { da := newDedupAggr() const seriesCount = 100_000 expectedSamplesMap := make(map[string]pushSample) for i := 0; i < 2; i++ { samples := make([]pushSample, seriesCount) for j := range samples { sample := &samples[j] sample.key = fmt.Sprintf("key_%d", j) sample.value = float64(i + j) expectedSamplesMap[sample.key] = *sample } da.pushSamples(samples) } if n := da.sizeBytes(); n > 3_400_000 { t.Fatalf("too big dedupAggr state before flush: %d bytes; it shouldn't exceed 3_400_000 bytes", n) } if n := da.itemsCount(); n != seriesCount { t.Fatalf("unexpected itemsCount; got %d; want %d", n, seriesCount) } flushedSamplesMap := make(map[string]pushSample) var mu sync.Mutex flushSamples := func(samples []pushSample) { mu.Lock() for _, sample := range samples { flushedSamplesMap[sample.key] = sample } mu.Unlock() } da.flush(flushSamples, true) if !reflect.DeepEqual(expectedSamplesMap, flushedSamplesMap) { t.Fatalf("unexpected samples;\ngot\n%v\nwant\n%v", flushedSamplesMap, expectedSamplesMap) } if n := da.sizeBytes(); n > 17_000 { t.Fatalf("too big dedupAggr state after flush; %d bytes; it shouldn't exceed 17_000 bytes", n) } if n := da.itemsCount(); n != 0 { t.Fatalf("unexpected non-zero itemsCount after flush; got %d", n) } } func TestDedupAggrConcurrent(t *testing.T) { const concurrency = 5 const seriesCount = 10_000 da := newDedupAggr() var wg sync.WaitGroup for i := 0; i < concurrency; i++ { wg.Add(1) go func() { defer wg.Done() for i := 0; i < 10; i++ { samples := make([]pushSample, seriesCount) for j := range samples { sample := &samples[j] sample.key = fmt.Sprintf("key_%d", j) sample.value = float64(i + j) } da.pushSamples(samples) } }() } wg.Wait() }