chunks: bring back lead/trail reuse, truncate incomplete sample
This commit is contained in:
Fabian Reinartz
parent
8c48dc2ca5
commit
0b6d621471
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@ -20,7 +20,7 @@ func TestChunk(t *testing.T) {
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EncXOR: func(sz int) Chunk { return NewXORChunk(sz) },
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} {
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t.Run(fmt.Sprintf("%s", enc), func(t *testing.T) {
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for range make([]struct{}, 3000) {
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for range make([]struct{}, 1) {
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c := nc(rand.Intn(1024))
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if err := testChunk(c); err != nil {
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t.Fatal(err)
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@ -42,10 +42,14 @@ func testChunk(c Chunk) error {
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v = 1243535.123
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)
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i := 0
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for i < 3 {
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for {
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ts += int64(rand.Intn(10000) + 1)
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v = rand.Float64()
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// v += float64(100)
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// v = rand.Float64()
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if i%2 == 0 {
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v += float64(rand.Intn(1000000))
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} else {
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v -= float64(rand.Intn(1000000))
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}
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// Start with a new appender every 10th sample. This emulates starting
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// appending to a partially filled chunk.
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@ -93,7 +97,7 @@ func benchmarkIterator(b *testing.B, newChunk func(int) Chunk) {
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// t += int64(rand.Intn(10000) + 1)
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t += int64(1000)
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// v = rand.Float64()
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v += float64(100)
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// v += float64(100)
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exp = append(exp, pair{t: t, v: v})
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}
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@ -48,7 +48,7 @@ func (c *XORChunk) Appender() (Appender, error) {
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return nil, err
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}
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return &xorAppender{
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a := &xorAppender{
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c: c,
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b: c.b,
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t: it.t,
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@ -56,7 +56,11 @@ func (c *XORChunk) Appender() (Appender, error) {
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tDelta: it.tDelta,
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leading: it.leading,
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trailing: it.trailing,
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}, nil
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}
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if c.num == 0 {
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a.leading = 0xff
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}
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return a, nil
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}
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func (c *XORChunk) iterator() *xorIterator {
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@ -88,6 +92,7 @@ type xorAppender struct {
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func (a *xorAppender) Append(t int64, v float64) error {
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var tDelta uint64
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l := len(a.b.bytes())
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if a.c.num == 0 {
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buf := make([]byte, binary.MaxVarintLen64)
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@ -133,6 +138,9 @@ func (a *xorAppender) Append(t int64, v float64) error {
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}
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if len(a.b.bytes()) > a.c.sz {
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// If the appended data exceeded the size limit, we truncate
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// the underlying data slice back to the length we started with.
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a.b.stream = a.b.stream[:l]
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return ErrChunkFull
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}
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@ -156,13 +164,12 @@ func (a *xorAppender) writeVDelta(v float64) {
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leading := uint8(bits.Clz(vDelta))
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trailing := uint8(bits.Ctz(vDelta))
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// clamp number of leading zeros to avoid overflow when encoding
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// Clamp number of leading zeros to avoid overflow when encoding.
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if leading >= 32 {
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leading = 31
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}
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// TODO(dgryski): check if it's 'cheaper' to reset the leading/trailing bits instead
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if a.leading != ^uint8(0) && leading >= a.leading && trailing >= a.trailing {
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if a.leading != 0xff && leading >= a.leading && trailing >= a.trailing {
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a.b.writeBit(zero)
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a.b.writeBits(vDelta>>a.trailing, 64-int(a.leading)-int(a.trailing))
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} else {
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