lqb
/
elasticsearch
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							[[search-aggregations-pipeline-percentiles-bucket-aggregation]]
=== Percentiles bucket aggregation
++++
<titleabbrev>Percentiles bucket</titleabbrev>
++++

A sibling pipeline aggregation which calculates percentiles across all bucket of a specified metric in a sibling aggregation.
The specified metric must be numeric and the sibling aggregation must be a multi-bucket aggregation.

==== Syntax

A `percentiles_bucket` aggregation looks like this in isolation:

[source,js]
--------------------------------------------------
{
  "percentiles_bucket": {
    "buckets_path": "the_sum"
  }
}
--------------------------------------------------
// NOTCONSOLE

[[percentiles-bucket-params]]
.`percentiles_bucket` Parameters
[options="header"]
|===
|Parameter Name |Description |Required |Default Value
|`buckets_path` |The path to the buckets we wish to find the percentiles for (see <<buckets-path-syntax>> for more
 details) |Required |
|`gap_policy` |The policy to apply when gaps are found in the data (see <<gap-policy>> for more
 details)|Optional | `skip`
|`format` |{javadoc}/java.base/java/text/DecimalFormat.html[DecimalFormat pattern] for the
output value. If specified, the formatted value is returned in the aggregation's
`value_as_string` property |Optional | `null`
|`percents` |The list of percentiles to calculate |Optional | `[ 1, 5, 25, 50, 75, 95, 99 ]`
|`keyed` |Flag which returns the range as an hash instead of an array of key-value pairs |Optional | `true`
|===

The following snippet calculates the percentiles for the total monthly `sales` buckets:

[source,console]
--------------------------------------------------
POST /sales/_search
{
  "size": 0,
  "aggs": {
    "sales_per_month": {
      "date_histogram": {
        "field": "date",
        "calendar_interval": "month"
      },
      "aggs": {
        "sales": {
          "sum": {
            "field": "price"
          }
        }
      }
    },
    "percentiles_monthly_sales": {
      "percentiles_bucket": {
        "buckets_path": "sales_per_month>sales", <1>
        "percents": [ 25.0, 50.0, 75.0 ]         <2>
      }
    }
  }
}
--------------------------------------------------
// TEST[setup:sales]

<1> `buckets_path` instructs this percentiles_bucket aggregation that we want to calculate percentiles for
the `sales` aggregation in the `sales_per_month` date histogram.
<2> `percents` specifies which percentiles we wish to calculate, in this case, the 25th, 50th and 75th percentiles.

And the following may be the response:

[source,console-result]
--------------------------------------------------
{
   "took": 11,
   "timed_out": false,
   "_shards": ...,
   "hits": ...,
   "aggregations": {
      "sales_per_month": {
         "buckets": [
            {
               "key_as_string": "2015/01/01 00:00:00",
               "key": 1420070400000,
               "doc_count": 3,
               "sales": {
                  "value": 550.0
               }
            },
            {
               "key_as_string": "2015/02/01 00:00:00",
               "key": 1422748800000,
               "doc_count": 2,
               "sales": {
                  "value": 60.0
               }
            },
            {
               "key_as_string": "2015/03/01 00:00:00",
               "key": 1425168000000,
               "doc_count": 2,
               "sales": {
                  "value": 375.0
               }
            }
         ]
      },
      "percentiles_monthly_sales": {
        "values" : {
            "25.0": 375.0,
            "50.0": 375.0,
            "75.0": 550.0
         }
      }
   }
}
--------------------------------------------------
// TESTRESPONSE[s/"took": 11/"took": $body.took/]
// TESTRESPONSE[s/"_shards": \.\.\./"_shards": $body._shards/]
// TESTRESPONSE[s/"hits": \.\.\./"hits": $body.hits/]

==== Percentiles_bucket implementation

The Percentile Bucket returns the nearest input data point that is not greater than the requested percentile; it does not
interpolate between data points.

The percentiles are calculated exactly and is not an approximation (unlike the Percentiles Metric). This means
the implementation maintains an in-memory, sorted list of your data to compute the percentiles, before discarding the
data. You may run into memory pressure issues if you attempt to calculate percentiles over many millions of
data-points in a single `percentiles_bucket`.