OpenSearch/docs/reference/aggregations/metrics/boxplot-aggregation.asciidoc

[role="xpack"]
[testenv="basic"]
[[search-aggregations-metrics-boxplot-aggregation]]
=== Boxplot Aggregation

A `boxplot` metrics aggregation that computes boxplot of numeric values extracted from the aggregated documents.
These values can be generated by a provided script or extracted from specific numeric or
<<histogram,histogram fields>> in the documents.

The `boxplot` aggregation returns essential information for making a https://en.wikipedia.org/wiki/Box_plot[box plot]: minimum, maximum
median, first quartile (25th percentile)  and third quartile (75th percentile) values.

==== Syntax

A `boxplot` aggregation looks like this in isolation:

[source,js]
--------------------------------------------------
{
    "boxplot": {
        "field": "load_time"
    }
}
--------------------------------------------------
// NOTCONSOLE

Let's look at a boxplot representing load time:

[source,console]
--------------------------------------------------
GET latency/_search
{
    "size": 0,
    "aggs" : {
        "load_time_boxplot" : {
            "boxplot" : {
                "field" : "load_time" <1>
            }
        }
    }
}
--------------------------------------------------
// TEST[setup:latency]
<1> The field `load_time` must be a numeric field

The response will look like this:

[source,console-result]
--------------------------------------------------
{
    ...

   "aggregations": {
      "load_time_boxplot": {
         "min": 0.0,
         "max": 990.0,
         "q1": 165.0,
         "q2": 445.0,
         "q3": 725.0
      }
   }
}
--------------------------------------------------
// TESTRESPONSE[s/\.\.\./"took": $body.took,"timed_out": false,"_shards": $body._shards,"hits": $body.hits,/]

==== Script

The boxplot metric supports scripting.  For example, if our load times
are in milliseconds but we want values calculated in seconds, we could use
a script to convert them on-the-fly:

[source,console]
--------------------------------------------------
GET latency/_search
{
    "size": 0,
    "aggs" : {
        "load_time_boxplot" : {
            "boxplot" : {
                "script" : {
                    "lang": "painless",
                    "source": "doc['load_time'].value / params.timeUnit", <1>
                    "params" : {
                        "timeUnit" : 1000   <2>
                    }
                }
            }
        }
    }
}
--------------------------------------------------
// TEST[setup:latency]

<1> The `field` parameter is replaced with a `script` parameter, which uses the
script to generate values which percentiles are calculated on
<2> Scripting supports parameterized input just like any other script

This will interpret the `script` parameter as an `inline` script with the `painless` script language and no script parameters. To use a
stored script use the following syntax:

[source,console]
--------------------------------------------------
GET latency/_search
{
    "size": 0,
    "aggs" : {
        "load_time_boxplot" : {
            "boxplot" : {
                "script" : {
                    "id": "my_script",
                    "params": {
                        "field": "load_time"
                    }
                }
            }
        }
    }
}
--------------------------------------------------
// TEST[setup:latency,stored_example_script]

[[search-aggregations-metrics-boxplot-aggregation-approximation]]
==== Boxplot values are (usually) approximate

The algorithm used by the `boxplot` metric is called TDigest (introduced by
Ted Dunning in
https://github.com/tdunning/t-digest/blob/master/docs/t-digest-paper/histo.pdf[Computing Accurate Quantiles using T-Digests]).

[WARNING]
====
Boxplot as other percentile aggregations are also
https://en.wikipedia.org/wiki/Nondeterministic_algorithm[non-deterministic].
This means you can get slightly different results using the same data.
====

[[search-aggregations-metrics-boxplot-aggregation-compression]]
==== Compression

Approximate algorithms must balance memory utilization with estimation accuracy.
This balance can be controlled using a `compression` parameter:

[source,console]
--------------------------------------------------
GET latency/_search
{
    "size": 0,
    "aggs" : {
        "load_time_boxplot" : {
            "boxplot" : {
                "field" : "load_time",
                "compression" : 200 <1>
            }
        }
    }
}
--------------------------------------------------
// TEST[setup:latency]

<1> Compression controls memory usage and approximation error

include::percentile-aggregation.asciidoc[tags=t-digest]

==== Missing value

The `missing` parameter defines how documents that are missing a value should be treated.
By default they will be ignored but it is also possible to treat them as if they
had a value.

[source,console]
--------------------------------------------------
GET latency/_search
{
    "size": 0,
    "aggs" : {
        "grade_boxplot" : {
            "boxplot" : {
                "field" : "grade",
                "missing": 10 <1>
            }
        }
    }
}
--------------------------------------------------
// TEST[setup:latency]

<1> Documents without a value in the `grade` field will fall into the same bucket as documents that have the value `10`.