mirror of https://github.com/apache/druid.git
293 lines
8.1 KiB
Markdown
293 lines
8.1 KiB
Markdown
---
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layout: doc_page
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---
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# Aggregations
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Aggregations can be provided at ingestion time as part of the ingestion spec as a way of summarizing data before it enters Druid.
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Aggregations can also be specified as part of many queries at query time.
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Available aggregations are:
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### Count aggregator
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`count` computes the count of Druid rows that match the filters.
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```json
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{ "type" : "count", "name" : <output_name> }
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```
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Please note the count aggregator counts the number of Druid rows, which does not always reflect the number of raw events ingested.
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This is because Druid rolls up data at ingestion time. To
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count the number of ingested rows of data, include a count aggregator at ingestion time, and a longSum aggregator at
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query time.
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### Sum aggregators
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#### `longSum` aggregator
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computes the sum of values as a 64-bit, signed integer
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```json
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{ "type" : "longSum", "name" : <output_name>, "fieldName" : <metric_name> }
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```
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`name` – output name for the summed value
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`fieldName` – name of the metric column to sum over
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#### `doubleSum` aggregator
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Computes the sum of values as 64-bit floating point value. Similar to `longSum`
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```json
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{ "type" : "doubleSum", "name" : <output_name>, "fieldName" : <metric_name> }
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```
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### Min / Max aggregators
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#### `doubleMin` aggregator
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`doubleMin` computes the minimum of all metric values and Double.POSITIVE_INFINITY
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```json
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{ "type" : "doubleMin", "name" : <output_name>, "fieldName" : <metric_name> }
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```
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#### `doubleMax` aggregator
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`doubleMax` computes the maximum of all metric values and Double.NEGATIVE_INFINITY
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```json
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{ "type" : "doubleMax", "name" : <output_name>, "fieldName" : <metric_name> }
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```
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#### `longMin` aggregator
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`longMin` computes the minimum of all metric values and Long.MAX_VALUE
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```json
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{ "type" : "longMin", "name" : <output_name>, "fieldName" : <metric_name> }
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```
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#### `longMax` aggregator
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`longMax` computes the maximum of all metric values and Long.MIN_VALUE
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```json
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{ "type" : "longMax", "name" : <output_name>, "fieldName" : <metric_name> }
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```
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### First / Last aggregator
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First and Last aggregator cannot be used in ingestion spec, and should only be specified as part of queries.
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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.
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#### `doubleFirst` aggregator
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`doubleFirst` computes the metric value with the minimum timestamp or 0 if no row exist
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```json
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{
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"type" : "doubleFirst",
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"name" : <output_name>,
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"fieldName" : <metric_name>
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}
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```
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#### `doubleLast` aggregator
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`doubleLast` computes the metric value with the maximum timestamp or 0 if no row exist
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```json
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{
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"type" : "doubleLast",
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"name" : <output_name>,
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"fieldName" : <metric_name>
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}
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```
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#### `longFirst` aggregator
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`longFirst` computes the metric value with the minimum timestamp or 0 if no row exist
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```json
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{
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"type" : "longFirst",
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"name" : <output_name>,
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"fieldName" : <metric_name>
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}
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```
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#### `longLast` aggregator
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`longLast` computes the metric value with the maximum timestamp or 0 if no row exist
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```json
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{
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"type" : "longLast",
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"name" : <output_name>,
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"fieldName" : <metric_name>,
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}
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```
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### JavaScript aggregator
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Computes an arbitrary JavaScript function over a set of columns (both metrics and dimensions are allowed). Your
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JavaScript functions are expected to return floating-point values.
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```json
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{ "type": "javascript",
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"name": "<output_name>",
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"fieldNames" : [ <column1>, <column2>, ... ],
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"fnAggregate" : "function(current, column1, column2, ...) {
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<updates partial aggregate (current) based on the current row values>
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return <updated partial aggregate>
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}",
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"fnCombine" : "function(partialA, partialB) { return <combined partial results>; }",
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"fnReset" : "function() { return <initial value>; }"
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}
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```
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**Example**
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```json
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{
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"type": "javascript",
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"name": "sum(log(x)*y) + 10",
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"fieldNames": ["x", "y"],
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"fnAggregate" : "function(current, a, b) { return current + (Math.log(a) * b); }",
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"fnCombine" : "function(partialA, partialB) { return partialA + partialB; }",
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"fnReset" : "function() { return 10; }"
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}
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```
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<div class="note info">
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Please refer to the Druid <a href="../development/javascript.html">JavaScript programming guide</a> for guidelines
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about using Druid's JavaScript functionality.
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</div>
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## Approximate Aggregations
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### Cardinality aggregator
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Computes the cardinality of a set of Druid dimensions, using HyperLogLog to estimate the cardinality. Please note that this
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aggregator will be much slower than indexing a column with the hyperUnique aggregator. This aggregator also runs over a dimension column, which
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means the string dimension cannot be removed from the dataset to improve rollup. In general, we strongly recommend using the hyperUnique aggregator
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instead of the cardinality aggregator if you do not care about the individual values of a dimension.
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```json
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{
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"type": "cardinality",
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"name": "<output_name>",
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"fields": [ <dimension1>, <dimension2>, ... ],
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"byRow": <false | true> # (optional, defaults to false)
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}
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```
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Each individual element of the "fields" list can be a String or [DimensionSpec](../querying/dimensionspecs.html). A String dimension in the fields list is equivalent to a DefaultDimensionSpec (no transformations).
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#### Cardinality by value
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When setting `byRow` to `false` (the default) it computes the cardinality of the set composed of the union of all dimension values for all the given dimensions.
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* For a single dimension, this is equivalent to
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```sql
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SELECT COUNT(DISTINCT(dimension)) FROM <datasource>
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```
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* For multiple dimensions, this is equivalent to something akin to
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```sql
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SELECT COUNT(DISTINCT(value)) FROM (
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SELECT dim_1 as value FROM <datasource>
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UNION
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SELECT dim_2 as value FROM <datasource>
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UNION
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SELECT dim_3 as value FROM <datasource>
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)
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```
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#### Cardinality by row
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When setting `byRow` to `true` it computes the cardinality by row, i.e. the cardinality of distinct dimension combinations.
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This is equivalent to something akin to
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```sql
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SELECT COUNT(*) FROM ( SELECT DIM1, DIM2, DIM3 FROM <datasource> GROUP BY DIM1, DIM2, DIM3 )
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```
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**Example**
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Determine the number of distinct countries people are living in or have come from.
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```json
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{
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"type": "cardinality",
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"name": "distinct_countries",
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"fields": [ "country_of_origin", "country_of_residence" ]
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}
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```
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Determine the number of distinct people (i.e. combinations of first and last name).
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```json
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{
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"type": "cardinality",
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"name": "distinct_people",
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"fields": [ "first_name", "last_name" ],
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"byRow" : true
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}
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```
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Determine the number of distinct starting characters of last names
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```json
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{
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"type": "cardinality",
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"name": "distinct_last_name_first_char",
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"fields": [
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{
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"type" : "extraction",
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"dimension" : "last_name",
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"outputName" : "last_name_first_char",
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"extractionFn" : { "type" : "substring", "index" : 0, "length" : 1 }
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}
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],
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"byRow" : true
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}
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```
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### HyperUnique aggregator
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Uses [HyperLogLog](http://algo.inria.fr/flajolet/Publications/FlFuGaMe07.pdf) to compute the estimated cardinality of a dimension that has been aggregated as a "hyperUnique" metric at indexing time.
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```json
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{ "type" : "hyperUnique", "name" : <output_name>, "fieldName" : <metric_name> }
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```
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For more approximate aggregators, please see [theta sketches](../development/extensions-core/datasketches-aggregators.html).
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## Miscellaneous Aggregations
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### Filtered Aggregator
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A filtered aggregator wraps any given aggregator, but only aggregates the values for which the given dimension filter matches.
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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.
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*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.
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```json
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{
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"type" : "filtered",
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"filter" : {
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"type" : "selector",
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"dimension" : <dimension>,
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"value" : <dimension value>
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}
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"aggregator" : <aggregation>
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}
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```
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