340 lines
12 KiB
Plaintext
340 lines
12 KiB
Plaintext
[[index-modules-fielddata]]
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== Field data
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The field data cache is used mainly when sorting on or computing aggregations
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on a field. It loads all the field values to memory in order to provide fast
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document based access to those values. The field data cache can be
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expensive to build for a field, so its recommended to have enough memory
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to allocate it, and to keep it loaded.
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The amount of memory used for the field
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data cache can be controlled using `indices.fielddata.cache.size`. Note:
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reloading the field data which does not fit into your cache will be expensive
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and perform poorly.
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[cols="<,<",options="header",]
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|=======================================================================
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|Setting |Description
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|`indices.fielddata.cache.size` |The max size of the field data cache,
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eg `30%` of node heap space, or an absolute value, eg `12GB`. Defaults
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to unbounded.
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|`indices.fielddata.cache.expire` |experimental[] A time based setting that expires
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field data after a certain time of inactivity. Defaults to `-1`. For
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example, can be set to `5m` for a 5 minute expiry.
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|=======================================================================
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[float]
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[[circuit-breaker]]
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=== Circuit Breaker
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Elasticsearch contains multiple circuit breakers used to prevent operations from
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causing an OutOfMemoryError. Each breaker specifies a limit for how much memory
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it can use. Additionally, there is a parent-level breaker that specifies the
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total amount of memory that can be used across all breakers.
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The parent-level breaker can be configured with the following setting:
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`indices.breaker.total.limit`::
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Starting limit for overall parent breaker, defaults to 70% of JVM heap
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All circuit breaker settings can be changed dynamically using the cluster update
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settings API.
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[float]
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[[fielddata-circuit-breaker]]
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==== Field data circuit breaker
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The field data circuit breaker allows Elasticsearch to estimate the amount of
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memory a field will require to be loaded into memory. It can then prevent the
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field data loading by raising an exception. By default the limit is configured
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to 60% of the maximum JVM heap. It can be configured with the following
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parameters:
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`indices.breaker.fielddata.limit`::
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Limit for fielddata breaker, defaults to 60% of JVM heap
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`indices.breaker.fielddata.overhead`::
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A constant that all field data estimations are multiplied with to determine a
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final estimation. Defaults to 1.03
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[float]
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[[request-circuit-breaker]]
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==== Request circuit breaker
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The request circuit breaker allows Elasticsearch to prevent per-request data
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structures (for example, memory used for calculating aggregations during a
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request) from exceeding a certain amount of memory.
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`indices.breaker.request.limit`::
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Limit for request breaker, defaults to 40% of JVM heap
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`indices.breaker.request.overhead`::
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A constant that all request estimations are multiplied with to determine a
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final estimation. Defaults to 1
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[float]
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[[fielddata-monitoring]]
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=== Monitoring field data
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You can monitor memory usage for field data as well as the field data circuit
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breaker using
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<<cluster-nodes-stats,Nodes Stats API>>
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[[fielddata-formats]]
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== Field data formats
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The field data format controls how field data should be stored.
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Depending on the field type, there might be several field data types
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available. In particular, string, geo-point and numeric types support the `doc_values`
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format which allows for computing the field data data-structures at indexing
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time and storing them on disk. Although it will make the index larger and may
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be slightly slower, this implementation will be more near-realtime-friendly
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and will require much less memory from the JVM than other implementations.
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Here is an example of how to configure the `tag` field to use the `paged_bytes` field
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data format.
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[source,js]
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--------------------------------------------------
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{
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"tag": {
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"type": "string",
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"fielddata": {
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"format": "paged_bytes"
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}
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}
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}
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--------------------------------------------------
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It is possible to change the field data format (and the field data settings
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in general) on a live index by using the update mapping API.
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[float]
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==== String field data types
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`paged_bytes` (default on analyzed string fields)::
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Stores unique terms sequentially in a large buffer and maps documents to
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the indices of the terms they contain in this large buffer.
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`doc_values` (default when index is set to `not_analyzed`)::
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Computes and stores field data data-structures on disk at indexing time.
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Lowers memory usage but only works on non-analyzed strings (`index`: `no` or
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`not_analyzed`).
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[float]
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==== Numeric field data types
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`array`::
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Stores field values in memory using arrays.
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`doc_values` (default unless doc values are disabled)::
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Computes and stores field data data-structures on disk at indexing time.
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[float]
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==== Geo point field data types
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`array`::
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Stores latitudes and longitudes in arrays.
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`doc_values` (default unless doc values are disabled)::
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Computes and stores field data data-structures on disk at indexing time.
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[float]
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[[global-ordinals]]
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==== Global ordinals
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Global ordinals is a data-structure on top of field data, that maintains an
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incremental numbering for all the terms in field data in a lexicographic order.
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Each term has a unique number and the number of term 'A' is lower than the number
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of term 'B'. Global ordinals are only supported on string fields.
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Field data on string also has ordinals, which is a unique numbering for all terms
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in a particular segment and field. Global ordinals just build on top of this,
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by providing a mapping between the segment ordinals and the global ordinals.
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The latter being unique across the entire shard.
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Global ordinals can be beneficial in search features that use segment ordinals already
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such as the terms aggregator to improve the execution time. Often these search features
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need to merge the segment ordinal results to a cross segment terms result. With
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global ordinals this mapping happens during field data load time instead of during each
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query execution. With global ordinals search features only need to resolve the actual
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term when building the (shard) response, but during the execution there is no need
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at all to use the actual terms and the unique numbering global ordinals provided is
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sufficient and improves the execution time.
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Global ordinals for a specified field are tied to all the segments of a shard (Lucene index),
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which is different than for field data for a specific field which is tied to a single segment.
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For this reason global ordinals need to be rebuilt in its entirety once new segments
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become visible. This one time cost would happen anyway without global ordinals, but
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then it would happen for each search execution instead!
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The loading time of global ordinals depends on the number of terms in a field, but in general
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it is low, since it source field data has already been loaded. The memory overhead of global
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ordinals is a small because it is very efficiently compressed. Eager loading of global ordinals
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can move the loading time from the first search request, to the refresh itself.
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[float]
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[[fielddata-loading]]
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=== Fielddata loading
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By default, field data is loaded lazily, ie. the first time that a query that
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requires them is executed. However, this can make the first requests that
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follow a merge operation quite slow since fielddata loading is a heavy
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operation.
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It is possible to force field data to be loaded and cached eagerly through the
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`loading` setting of fielddata:
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[source,js]
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--------------------------------------------------
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{
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"category": {
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"type": "string",
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"fielddata": {
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"loading": "eager"
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}
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}
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}
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--------------------------------------------------
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Global ordinals can also be eagerly loaded:
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[source,js]
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--------------------------------------------------
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{
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"category": {
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"type": "string",
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"fielddata": {
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"loading": "eager_global_ordinals"
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}
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}
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}
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--------------------------------------------------
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With the above setting both field data and global ordinals for a specific field
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are eagerly loaded.
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[float]
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==== Disabling field data loading
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Field data can take a lot of RAM so it makes sense to disable field data
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loading on the fields that don't need field data, for example those that are
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used for full-text search only. In order to disable field data loading, just
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change the field data format to `disabled`. When disabled, all requests that
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will try to load field data, e.g. when they include aggregations and/or sorting,
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will return an error.
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[source,js]
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--------------------------------------------------
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{
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"text": {
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"type": "string",
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"fielddata": {
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"format": "disabled"
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}
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}
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}
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--------------------------------------------------
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The `disabled` format is supported by all field types.
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[float]
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[[field-data-filtering]]
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=== Filtering fielddata
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It is possible to control which field values are loaded into memory,
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which is particularly useful for string fields. When specifying the
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<<mapping-core-types,mapping>> for a field, you
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can also specify a fielddata filter.
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Fielddata filters can be changed using the
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<<indices-put-mapping,PUT mapping>>
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API. After changing the filters, use the
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<<indices-clearcache,Clear Cache>> API
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to reload the fielddata using the new filters.
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[float]
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==== Filtering by frequency:
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The frequency filter allows you to only load terms whose frequency falls
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between a `min` and `max` value, which can be expressed an absolute
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number (when the number is bigger than 1.0) or as a percentage
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(eg `0.01` is `1%` and `1.0` is `100%`). Frequency is calculated
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*per segment*. Percentages are based on the number of docs which have a
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value for the field, as opposed to all docs in the segment.
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Small segments can be excluded completely by specifying the minimum
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number of docs that the segment should contain with `min_segment_size`:
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[source,js]
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--------------------------------------------------
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{
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"tag": {
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"type": "string",
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"fielddata": {
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"filter": {
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"frequency": {
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"min": 0.001,
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"max": 0.1,
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"min_segment_size": 500
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}
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}
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}
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}
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}
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--------------------------------------------------
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[float]
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==== Filtering by regex
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Terms can also be filtered by regular expression - only values which
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match the regular expression are loaded. Note: the regular expression is
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applied to each term in the field, not to the whole field value. For
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instance, to only load hashtags from a tweet, we can use a regular
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expression which matches terms beginning with `#`:
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[source,js]
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--------------------------------------------------
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{
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"tweet": {
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"type": "string",
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"analyzer": "whitespace"
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"fielddata": {
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"filter": {
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"regex": {
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"pattern": "^#.*"
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}
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}
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}
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}
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}
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--------------------------------------------------
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[float]
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==== Combining filters
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The `frequency` and `regex` filters can be combined:
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[source,js]
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--------------------------------------------------
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{
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"tweet": {
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"type": "string",
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"analyzer": "whitespace"
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"fielddata": {
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"filter": {
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"regex": {
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"pattern": "^#.*",
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},
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"frequency": {
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"min": 0.001,
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"max": 0.1,
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"min_segment_size": 500
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}
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}
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}
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}
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}
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--------------------------------------------------
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