[role="xpack"] [testenv="basic"] [[search-aggregations-pipeline-moving-percentiles-aggregation]] === Moving Percentiles Aggregation Given an ordered series of <>, the Moving Percentile aggregation will slide a window across those percentiles and allow the user to compute the cumulative percentile. This is conceptually very similar to the <> pipeline aggregation, except it works on the percentiles sketches instead of the actual buckets values. ==== Syntax A `moving_percentiles` aggregation looks like this in isolation: [source,js] -------------------------------------------------- { "moving_percentiles": { "buckets_path": "the_percentile", "window": 10 } } -------------------------------------------------- // NOTCONSOLE [[moving-percentiles-params]] .`moving_percentiles` Parameters [options="header"] |=== |Parameter Name |Description |Required |Default Value |`buckets_path` |Path to the percentile of interest (see <> for more details |Required | |`window` |The size of window to "slide" across the histogram. |Required | |`shift` |<> of window position. |Optional | 0 |=== `moving_percentiles` aggregations must be embedded inside of a `histogram` or `date_histogram` aggregation. They can be embedded like any other metric aggregation: [source,console] -------------------------------------------------- POST /_search { "size": 0, "aggs": { "my_date_histo": { <1> "date_histogram": { "field": "date", "calendar_interval": "1M" }, "aggs": { "the_percentile": { <2> "percentiles": { "field": "price", "percents": [ 1.0, 99.0 ] } }, "the_movperc": { "moving_percentiles": { "buckets_path": "the_percentile", <3> "window": 10 } } } } } } -------------------------------------------------- // TEST[setup:sales] <1> A `date_histogram` named "my_date_histo" is constructed on the "timestamp" field, with one-day intervals <2> A `percentile` metric is used to calculate the percentiles of a field. <3> Finally, we specify a `moving_percentiles` aggregation which uses "the_percentile" sketch as its input. Moving percentiles are built by first specifying a `histogram` or `date_histogram` over a field. You then add a percentile metric inside of that histogram. Finally, the `moving_percentiles` is embedded inside the histogram. The `buckets_path` parameter is then used to "point" at the percentiles aggregation inside of the histogram (see <> for a description of the syntax for `buckets_path`). And the following may be the response: [source,console-result] -------------------------------------------------- { "took": 11, "timed_out": false, "_shards": ..., "hits": ..., "aggregations": { "my_date_histo": { "buckets": [ { "key_as_string": "2015/01/01 00:00:00", "key": 1420070400000, "doc_count": 3, "the_percentile": { "values": { "1.0": 150.0, "99.0": 200.0 } } }, { "key_as_string": "2015/02/01 00:00:00", "key": 1422748800000, "doc_count": 2, "the_percentile": { "values": { "1.0": 10.0, "99.0": 50.0 } }, "the_movperc": { "values": { "1.0": 150.0, "99.0": 200.0 } } }, { "key_as_string": "2015/03/01 00:00:00", "key": 1425168000000, "doc_count": 2, "the_percentile": { "values": { "1.0": 175.0, "99.0": 200.0 } }, "the_movperc": { "values": { "1.0": 10.0, "99.0": 200.0 } } } ] } } } -------------------------------------------------- // TESTRESPONSE[s/"took": 11/"took": $body.took/] // TESTRESPONSE[s/"_shards": \.\.\./"_shards": $body._shards/] // TESTRESPONSE[s/"hits": \.\.\./"hits": $body.hits/] The output format of the `moving_percentiles` aggregation is inherited from the format of the referenced <> aggregation. Moving percentiles pipeline aggregations always run with `skip` gap policy. [[moving-percentiles-shift-parameter]] ==== shift parameter By default (with `shift = 0`), the window that is offered for calculation is the last `n` values excluding the current bucket. Increasing `shift` by 1 moves starting window position by `1` to the right. - To include current bucket to the window, use `shift = 1`. - For center alignment (`n / 2` values before and after the current bucket), use `shift = window / 2`. - For right alignment (`n` values after the current bucket), use `shift = window`. If either of window edges moves outside the borders of data series, the window shrinks to include available values only.