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doc_page | Aggregations |
Aggregations
Aggregations can be provided at ingestion time as part of the ingestion spec as a way of summarizing data before it enters Apache Druid (incubating). Aggregations can also be specified as part of many queries at query time.
Available aggregations are:
Count aggregator
count
computes the count of Druid rows that match the filters.
{ "type" : "count", "name" : <output_name> }
Please note the count aggregator counts the number of Druid rows, which does not always reflect the number of raw events ingested. This is because Druid can be configured to roll up data at ingestion time. To count the number of ingested rows of data, include a count aggregator at ingestion time, and a longSum aggregator at query time.
Sum aggregators
longSum
aggregator
computes the sum of values as a 64-bit, signed integer
{ "type" : "longSum", "name" : <output_name>, "fieldName" : <metric_name> }
name
– output name for the summed value
fieldName
– name of the metric column to sum over
doubleSum
aggregator
Computes and stores the sum of values as 64-bit floating point value. Similar to longSum
{ "type" : "doubleSum", "name" : <output_name>, "fieldName" : <metric_name> }
floatSum
aggregator
Computes and stores the sum of values as 32-bit floating point value. Similar to longSum
and doubleSum
{ "type" : "floatSum", "name" : <output_name>, "fieldName" : <metric_name> }
Min / Max aggregators
doubleMin
aggregator
doubleMin
computes the minimum of all metric values and Double.POSITIVE_INFINITY
{ "type" : "doubleMin", "name" : <output_name>, "fieldName" : <metric_name> }
doubleMax
aggregator
doubleMax
computes the maximum of all metric values and Double.NEGATIVE_INFINITY
{ "type" : "doubleMax", "name" : <output_name>, "fieldName" : <metric_name> }
floatMin
aggregator
floatMin
computes the minimum of all metric values and Float.POSITIVE_INFINITY
{ "type" : "floatMin", "name" : <output_name>, "fieldName" : <metric_name> }
floatMax
aggregator
floatMax
computes the maximum of all metric values and Float.NEGATIVE_INFINITY
{ "type" : "floatMax", "name" : <output_name>, "fieldName" : <metric_name> }
longMin
aggregator
longMin
computes the minimum of all metric values and Long.MAX_VALUE
{ "type" : "longMin", "name" : <output_name>, "fieldName" : <metric_name> }
longMax
aggregator
longMax
computes the maximum of all metric values and Long.MIN_VALUE
{ "type" : "longMax", "name" : <output_name>, "fieldName" : <metric_name> }
First / Last aggregator
(Double/Float/Long) First and Last aggregator cannot be used in ingestion spec, and should only be specified as part of queries.
Note that queries with first/last aggregators on a segment created with rollup enabled will return the rolled up value, and not the last value within the raw ingested data.
doubleFirst
aggregator
doubleFirst
computes the metric value with the minimum timestamp or 0 if no row exist
{
"type" : "doubleFirst",
"name" : <output_name>,
"fieldName" : <metric_name>
}
doubleLast
aggregator
doubleLast
computes the metric value with the maximum timestamp or 0 if no row exist
{
"type" : "doubleLast",
"name" : <output_name>,
"fieldName" : <metric_name>
}
floatFirst
aggregator
floatFirst
computes the metric value with the minimum timestamp or 0 if no row exist
{
"type" : "floatFirst",
"name" : <output_name>,
"fieldName" : <metric_name>
}
floatLast
aggregator
floatLast
computes the metric value with the maximum timestamp or 0 if no row exist
{
"type" : "floatLast",
"name" : <output_name>,
"fieldName" : <metric_name>
}
longFirst
aggregator
longFirst
computes the metric value with the minimum timestamp or 0 if no row exist
{
"type" : "longFirst",
"name" : <output_name>,
"fieldName" : <metric_name>
}
longLast
aggregator
longLast
computes the metric value with the maximum timestamp or 0 if no row exist
{
"type" : "longLast",
"name" : <output_name>,
"fieldName" : <metric_name>,
}
stringFirst
aggregator
stringFirst
computes the metric value with the minimum timestamp or null
if no row exist
{
"type" : "stringFirst",
"name" : <output_name>,
"fieldName" : <metric_name>,
"maxStringBytes" : <integer> # (optional, defaults to 1024),
"filterNullValues" : <boolean> # (optional, defaults to false)
}
stringLast
aggregator
stringLast
computes the metric value with the maximum timestamp or null
if no row exist
{
"type" : "stringLast",
"name" : <output_name>,
"fieldName" : <metric_name>,
"maxStringBytes" : <integer> # (optional, defaults to 1024),
"filterNullValues" : <boolean> # (optional, defaults to false)
}
JavaScript aggregator
Computes an arbitrary JavaScript function over a set of columns (both metrics and dimensions are allowed). Your JavaScript functions are expected to return floating-point values.
{ "type": "javascript",
"name": "<output_name>",
"fieldNames" : [ <column1>, <column2>, ... ],
"fnAggregate" : "function(current, column1, column2, ...) {
<updates partial aggregate (current) based on the current row values>
return <updated partial aggregate>
}",
"fnCombine" : "function(partialA, partialB) { return <combined partial results>; }",
"fnReset" : "function() { return <initial value>; }"
}
Example
{
"type": "javascript",
"name": "sum(log(x)*y) + 10",
"fieldNames": ["x", "y"],
"fnAggregate" : "function(current, a, b) { return current + (Math.log(a) * b); }",
"fnCombine" : "function(partialA, partialB) { return partialA + partialB; }",
"fnReset" : "function() { return 10; }"
}
Count distinct
DataSketches Theta Sketch
The DataSketches Theta Sketch extension-provided aggregator gives distinct count estimates with support for set union, intersection, and difference post-aggregators, using Theta sketches from the datasketches library.
DataSketches HLL Sketch
The DataSketches HLL Sketch extension-provided aggregator gives distinct count estimates using the HyperLogLog algorithm.
Compared to the Theta sketch, the HLL sketch does not support set operations and has slightly slower update and merge speed, but requires significantly less space.
Cardinality/HyperUnique (Deprecated)
The Cardinality and HyperUnique aggregators are older aggregator implementations available by default in Druid that also provide distinct count estimates using the HyperLogLog algorithm. The newer DataSketches Theta and HLL extension-provided aggregators described above have superior accuracy and performance and are recommended instead.
The DataSketches team has published a comparison study between Druid's original HLL algorithm and the DataSketches HLL algorithm. Based on the demonstrated advantages of the DataSketches implementation, we have deprecated Druid's original HLL aggregator.
Please note that hyperUnique
aggregators are not mutually compatible with Datasketches HLL or Theta sketches.
Although deprecated, we will continue to support the older Cardinality/HyperUnique aggregators for backwards compatibility.
Multi-column handling
Note the DataSketches Theta and HLL aggregators currently only support single-column inputs. If you were previously using the Cardinality aggregator with multiple-column inputs, equivalent operations using Theta or HLL sketches are described below:
- Multi-column
byValue
Cardinality can be replaced with a union of Theta sketches on the individual input columns - Multi-column
byRow
Cardinality can be replaced with a Theta or HLL sketch on a single [virtual column]((../querying/virtual-columns.html) that combines the individual input columns.
Histograms and quantiles
DataSketches Quantiles Sketch
The DataSketches Quantiles Sketch extension-provided aggregator provides quantile estimates and histogram approximations using the numeric quantiles DoublesSketch from the datasketches library.
We recommend this aggregator in general for quantiles/histogram use cases, as it provides formal error bounds and has distribution-independent accuracy.
Moments Sketch (Experimental)
The Moments Sketch extension-provided aggregator is an experimental aggregator that provides quantile estimates using the Moments Sketch.
The Moments Sketch aggregator is provided as an experimental option. It is optimized for merging speed and it can have higher aggregation performance compared to the DataSketches quantiles aggregator. However, the accuracy of the Moments Sketch is distribution-dependent, so users will need to empirically verify that the aggregator is suitable for their input data.
As a general guideline for experimentation, the Moments Sketch paper points out that this algorithm works better on inputs with high entropy. In particular, the algorithm is not a good fit when the input data consists of a small number of clustered discrete values.
Fixed Buckets Histogram
Druid also provides a [simple histogram implementation]((../development/extensions-core/approxiate-histograms.html#fixed-buckets-histogram) that uses a fixed range and fixed number of buckets with support for quantile estimation, backed by an array of bucket count values.
The fixed buckets histogram can perform well when the distribution of the input data allows a small number of buckets to be used.
We do not recommend the fixed buckets histogram for general use, as its usefulness is extremely data dependent. However, it is made available for users that have already identified use cases where a fixed buckets histogram is suitable.
Approximate Histogram (Deprecated)
The Approximate Histogram extension-provided aggregator also provides quantile estimates and histogram approximations, based on http://jmlr.org/papers/volume11/ben-haim10a/ben-haim10a.pdf.
The algorithm used by this deprecated aggregator is highly distribution-dependent and its output is subject to serious distortions when the input does not fit within the algorithm's limitations.
A study published by the DataSketches team demonstrates some of the known failure modes of this algorithm:
- The algorithm's quantile calculations can fail to provide results for a large range of rank values (all ranks less than 0.89 in the example used in the study), returning all zeroes instead.
- The algorithm can completely fail to record spikes in the tail ends of the distribution
- In general, the histogram produced by the algorithm can deviate significantly from the true histogram, with no bounds on the errors.
It is not possible to determine a priori how well this aggregator will behave for a given input stream, nor does the aggregator provide any indication that serious distortions are present in the output.
For these reasons, we have deprecated this aggregator and recommend using the DataSketches Quantiles aggregator instead for new and existing use cases, although we will continue to support Approximate Histogram for backwards compatibility.
Miscellaneous Aggregations
Filtered Aggregator
A filtered aggregator wraps any given aggregator, but only aggregates the values for which the given dimension filter matches.
This makes it possible to compute the results of a filtered and an unfiltered aggregation simultaneously, without having to issue multiple queries, and use both results as part of post-aggregations.
Note: If only the filtered results are required, consider putting the filter on the query itself, which will be much faster since it does not require scanning all the data.
{
"type" : "filtered",
"filter" : {
"type" : "selector",
"dimension" : <dimension>,
"value" : <dimension value>
}
"aggregator" : <aggregation>
}