Add support to query unmerged, unsorted chunks (#299)
* Add support to query unmerged, unsorted chunks Signed-off-by: Ganesh Vernekar <ganeshvern@gmail.com> * Fix unrelated lint issue Signed-off-by: Ganesh Vernekar <ganeshvern@gmail.com>
This commit is contained in:
Ganesh Vernekar
GitHub
parent
00b379c3a5
commit
2836e5513f
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@ -717,3 +717,56 @@ func (h *chunkIteratorHeap) Pop() interface{} {
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*h = old[0 : n-1]
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*h = old[0 : n-1]
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return x
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return x
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}
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}
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// NewConcatenatingChunkSeriesMerger returns a VerticalChunkSeriesMergeFunc that simply concatenates the
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// chunks from the series. The resultant stream of chunks for a series might be overlapping and unsorted.
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func NewConcatenatingChunkSeriesMerger() VerticalChunkSeriesMergeFunc {
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return func(series ...ChunkSeries) ChunkSeries {
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if len(series) == 0 {
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return nil
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}
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return &ChunkSeriesEntry{
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Lset: series[0].Labels(),
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ChunkIteratorFn: func() chunks.Iterator {
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iterators := make([]chunks.Iterator, 0, len(series))
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for _, s := range series {
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iterators = append(iterators, s.Iterator())
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}
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return &concatenatingChunkIterator{
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iterators: iterators,
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}
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},
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}
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}
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}
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type concatenatingChunkIterator struct {
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iterators []chunks.Iterator
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idx int
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curr chunks.Meta
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}
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func (c *concatenatingChunkIterator) At() chunks.Meta {
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return c.curr
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}
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func (c *concatenatingChunkIterator) Next() bool {
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if c.idx >= len(c.iterators) {
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return false
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}
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if c.iterators[c.idx].Next() {
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c.curr = c.iterators[c.idx].At()
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return true
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}
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c.idx++
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return c.Next()
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}
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func (c *concatenatingChunkIterator) Err() error {
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errs := tsdb_errors.NewMulti()
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for _, iter := range c.iterators {
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errs.Add(iter.Err())
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}
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return errs.Err()
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}
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@ -499,6 +499,140 @@ func TestCompactingChunkSeriesMerger(t *testing.T) {
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}
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}
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}
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}
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func TestConcatenatingChunkSeriesMerger(t *testing.T) {
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m := NewConcatenatingChunkSeriesMerger()
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for _, tc := range []struct {
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name string
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input []ChunkSeries
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expected ChunkSeries
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}{
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{
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name: "single empty series",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), nil),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), nil),
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},
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{
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name: "single series",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{1, 1}, sample{2, 2}}, []tsdbutil.Sample{sample{3, 3}}),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{1, 1}, sample{2, 2}}, []tsdbutil.Sample{sample{3, 3}}),
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},
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{
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name: "two empty series",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), nil),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), nil),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), nil, nil),
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},
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{
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name: "two non overlapping",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{1, 1}, sample{2, 2}}, []tsdbutil.Sample{sample{3, 3}, sample{5, 5}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{7, 7}, sample{9, 9}}, []tsdbutil.Sample{sample{10, 10}}),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{1, 1}, sample{2, 2}}, []tsdbutil.Sample{sample{3, 3}, sample{5, 5}}, []tsdbutil.Sample{sample{7, 7}, sample{9, 9}}, []tsdbutil.Sample{sample{10, 10}}),
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},
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{
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name: "two overlapping",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{1, 1}, sample{2, 2}}, []tsdbutil.Sample{sample{3, 3}, sample{8, 8}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{7, 7}, sample{9, 9}}, []tsdbutil.Sample{sample{10, 10}}),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"),
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[]tsdbutil.Sample{sample{1, 1}, sample{2, 2}}, []tsdbutil.Sample{sample{3, 3}, sample{8, 8}},
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[]tsdbutil.Sample{sample{7, 7}, sample{9, 9}}, []tsdbutil.Sample{sample{10, 10}},
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),
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},
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{
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name: "two duplicated",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{1, 1}, sample{2, 2}, sample{3, 3}, sample{5, 5}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{2, 2}, sample{3, 3}, sample{5, 5}}),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"),
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[]tsdbutil.Sample{sample{1, 1}, sample{2, 2}, sample{3, 3}, sample{5, 5}},
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[]tsdbutil.Sample{sample{2, 2}, sample{3, 3}, sample{5, 5}},
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),
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},
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{
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name: "three overlapping",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{1, 1}, sample{2, 2}, sample{3, 3}, sample{5, 5}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{2, 2}, sample{3, 3}, sample{6, 6}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{0, 0}, sample{4, 4}}),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"),
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[]tsdbutil.Sample{sample{1, 1}, sample{2, 2}, sample{3, 3}, sample{5, 5}},
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[]tsdbutil.Sample{sample{2, 2}, sample{3, 3}, sample{6, 6}},
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[]tsdbutil.Sample{sample{0, 0}, sample{4, 4}},
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),
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},
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{
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name: "three in chained overlap",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{1, 1}, sample{2, 2}, sample{3, 3}, sample{5, 5}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{4, 4}, sample{6, 66}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{6, 6}, sample{10, 10}}),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"),
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[]tsdbutil.Sample{sample{1, 1}, sample{2, 2}, sample{3, 3}, sample{5, 5}},
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[]tsdbutil.Sample{sample{4, 4}, sample{6, 66}},
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[]tsdbutil.Sample{sample{6, 6}, sample{10, 10}},
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),
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},
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{
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name: "three in chained overlap complex",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{0, 0}, sample{5, 5}}, []tsdbutil.Sample{sample{10, 10}, sample{15, 15}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{2, 2}, sample{20, 20}}, []tsdbutil.Sample{sample{25, 25}, sample{30, 30}}),
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), []tsdbutil.Sample{sample{18, 18}, sample{26, 26}}, []tsdbutil.Sample{sample{31, 31}, sample{35, 35}}),
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"),
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[]tsdbutil.Sample{sample{0, 0}, sample{5, 5}}, []tsdbutil.Sample{sample{10, 10}, sample{15, 15}},
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[]tsdbutil.Sample{sample{2, 2}, sample{20, 20}}, []tsdbutil.Sample{sample{25, 25}, sample{30, 30}},
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[]tsdbutil.Sample{sample{18, 18}, sample{26, 26}}, []tsdbutil.Sample{sample{31, 31}, sample{35, 35}},
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),
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},
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{
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name: "110 overlapping",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), tsdbutil.GenerateSamples(0, 110)), // [0 - 110)
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), tsdbutil.GenerateSamples(60, 50)), // [60 - 110)
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"),
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tsdbutil.GenerateSamples(0, 110),
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tsdbutil.GenerateSamples(60, 50),
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),
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},
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{
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name: "150 overlapping samples, simply concatenated and no splits",
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input: []ChunkSeries{
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), tsdbutil.GenerateSamples(0, 90)), // [0 - 90)
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NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"), tsdbutil.GenerateSamples(60, 90)), // [90 - 150)
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},
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expected: NewListChunkSeriesFromSamples(labels.FromStrings("bar", "baz"),
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tsdbutil.GenerateSamples(0, 90),
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tsdbutil.GenerateSamples(60, 90),
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),
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},
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} {
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t.Run(tc.name, func(t *testing.T) {
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merged := m(tc.input...)
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require.Equal(t, tc.expected.Labels(), merged.Labels())
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actChks, actErr := ExpandChunks(merged.Iterator())
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expChks, expErr := ExpandChunks(tc.expected.Iterator())
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require.Equal(t, expErr, actErr)
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require.Equal(t, expChks, actChks)
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})
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}
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}
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type mockQuerier struct {
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type mockQuerier struct {
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LabelQuerier
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LabelQuerier
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@ -39,7 +39,7 @@ type BlockWriter struct {
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}
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}
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// ErrNoSeriesAppended is returned if the series count is zero while flushing blocks.
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// ErrNoSeriesAppended is returned if the series count is zero while flushing blocks.
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var ErrNoSeriesAppended error = errors.New("no series appended, aborting")
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var ErrNoSeriesAppended = errors.New("no series appended, aborting")
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// NewBlockWriter create a new block writer.
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// NewBlockWriter create a new block writer.
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//
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//
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24
tsdb/db.go
24
tsdb/db.go
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@ -1817,8 +1817,9 @@ func (db *DB) Querier(_ context.Context, mint, maxt int64) (storage.Querier, err
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return storage.NewMergeQuerier(blockQueriers, nil, storage.ChainedSeriesMerge), nil
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return storage.NewMergeQuerier(blockQueriers, nil, storage.ChainedSeriesMerge), nil
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}
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}
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// ChunkQuerier returns a new chunk querier over the data partition for the given time range.
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// blockQueriersForRange returns individual block chunk queriers from the persistent blocks, in-order head block, and the
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func (db *DB) ChunkQuerier(_ context.Context, mint, maxt int64) (storage.ChunkQuerier, error) {
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// out-of-order head block, overlapping with the given time range.
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func (db *DB) blockChunkQuerierForRange(mint, maxt int64) ([]storage.ChunkQuerier, error) {
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var blocks []BlockReader
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var blocks []BlockReader
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db.mtx.RLock()
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db.mtx.RLock()
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@ -1888,9 +1889,28 @@ func (db *DB) ChunkQuerier(_ context.Context, mint, maxt int64) (storage.ChunkQu
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blockQueriers = append(blockQueriers, outOfOrderHeadQuerier)
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blockQueriers = append(blockQueriers, outOfOrderHeadQuerier)
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}
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}
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return blockQueriers, nil
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}
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// ChunkQuerier returns a new chunk querier over the data partition for the given time range.
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func (db *DB) ChunkQuerier(_ context.Context, mint, maxt int64) (storage.ChunkQuerier, error) {
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blockQueriers, err := db.blockChunkQuerierForRange(mint, maxt)
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if err != nil {
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return nil, err
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}
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return storage.NewMergeChunkQuerier(blockQueriers, nil, storage.NewCompactingChunkSeriesMerger(storage.ChainedSeriesMerge)), nil
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return storage.NewMergeChunkQuerier(blockQueriers, nil, storage.NewCompactingChunkSeriesMerger(storage.ChainedSeriesMerge)), nil
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}
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}
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// UnorderedChunkQuerier returns a new chunk querier over the data partition for the given time range.
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// The chunks can be overlapping and not sorted.
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func (db *DB) UnorderedChunkQuerier(_ context.Context, mint, maxt int64) (storage.ChunkQuerier, error) {
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blockQueriers, err := db.blockChunkQuerierForRange(mint, maxt)
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if err != nil {
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return nil, err
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}
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return storage.NewMergeChunkQuerier(blockQueriers, nil, storage.NewConcatenatingChunkSeriesMerger()), nil
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}
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func (db *DB) ExemplarQuerier(ctx context.Context) (storage.ExemplarQuerier, error) {
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func (db *DB) ExemplarQuerier(ctx context.Context) (storage.ExemplarQuerier, error) {
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return db.head.exemplars.ExemplarQuerier(ctx)
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return db.head.exemplars.ExemplarQuerier(ctx)
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}
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}
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