[[query-dsl-script-score-query]] === Script score query ++++ Script score ++++ Uses a <> to provide a custom score for returned documents. The `script_score` query is useful if, for example, a scoring function is expensive and you only need to calculate the score of a filtered set of documents. [[script-score-query-ex-request]] ==== Example request The following `script_score` query assigns each returned document a score equal to the `likes` field value divided by `10`. [source,console] -------------------------------------------------- GET /_search { "query" : { "script_score" : { "query" : { "match": { "message": "elasticsearch" } }, "script" : { "source" : "doc['likes'].value / 10 " } } } } -------------------------------------------------- [[script-score-top-level-params]] ==== Top-level parameters for `script_score` `query`:: (Required, query object) Query used to return documents. `script`:: + -- (Required, <>) Script used to compute the score of documents returned by the `query`. IMPORTANT: Final relevance scores from the `script_score` query cannot be negative. To support certain search optimizations, Lucene requires scores be positive or `0`. -- `min_score`:: (Optional, float) Documents with a <> lower than this floating point number are excluded from the search results. [[script-score-query-notes]] ==== Notes [[script-score-access-scores]] ===== Use relevance scores in a script Within a script, you can {ref}/modules-scripting-fields.html#scripting-score[access] the `_score` variable which represents the current relevance score of a document. [[script-score-predefined-functions]] ===== Predefined functions You can use any of the available {painless}/painless-contexts.html[painless functions] in your `script`. You can also use the following predefined functions to customize scoring: * <> * <> * <> * <> * <> * <> * <> We suggest using these predefined functions instead of writing your own. These functions take advantage of efficiencies from {es}' internal mechanisms. [[script-score-saturation]] ====== Saturation `saturation(value,k) = value/(k + value)` [source,js] -------------------------------------------------- "script" : { "source" : "saturation(doc['likes'].value, 1)" } -------------------------------------------------- // NOTCONSOLE [[script-score-sigmoid]] ====== Sigmoid `sigmoid(value, k, a) = value^a/ (k^a + value^a)` [source,js] -------------------------------------------------- "script" : { "source" : "sigmoid(doc['likes'].value, 2, 1)" } -------------------------------------------------- // NOTCONSOLE [[random-score-function]] ====== Random score function `random_score` function generates scores that are uniformly distributed from 0 up to but not including 1. `randomScore` function has the following syntax: `randomScore(, )`. It has a required parameter - `seed` as an integer value, and an optional parameter - `fieldName` as a string value. [source,js] -------------------------------------------------- "script" : { "source" : "randomScore(100, '_seq_no')" } -------------------------------------------------- // NOTCONSOLE If the `fieldName` parameter is omitted, the internal Lucene document ids will be used as a source of randomness. This is very efficient, but unfortunately not reproducible since documents might be renumbered by merges. [source,js] -------------------------------------------------- "script" : { "source" : "randomScore(100)" } -------------------------------------------------- // NOTCONSOLE Note that documents that are within the same shard and have the same value for field will get the same score, so it is usually desirable to use a field that has unique values for all documents across a shard. A good default choice might be to use the `_seq_no` field, whose only drawback is that scores will change if the document is updated since update operations also update the value of the `_seq_no` field. [[decay-functions-numeric-fields]] ====== Decay functions for numeric fields You can read more about decay functions {ref}/query-dsl-function-score-query.html#function-decay[here]. * `double decayNumericLinear(double origin, double scale, double offset, double decay, double docValue)` * `double decayNumericExp(double origin, double scale, double offset, double decay, double docValue)` * `double decayNumericGauss(double origin, double scale, double offset, double decay, double docValue)` [source,js] -------------------------------------------------- "script" : { "source" : "decayNumericLinear(params.origin, params.scale, params.offset, params.decay, doc['dval'].value)", "params": { <1> "origin": 20, "scale": 10, "decay" : 0.5, "offset" : 0 } } -------------------------------------------------- // NOTCONSOLE <1> Using `params` allows to compile the script only once, even if params change. [[decay-functions-geo-fields]] ====== Decay functions for geo fields * `double decayGeoLinear(String originStr, String scaleStr, String offsetStr, double decay, GeoPoint docValue)` * `double decayGeoExp(String originStr, String scaleStr, String offsetStr, double decay, GeoPoint docValue)` * `double decayGeoGauss(String originStr, String scaleStr, String offsetStr, double decay, GeoPoint docValue)` [source,js] -------------------------------------------------- "script" : { "source" : "decayGeoExp(params.origin, params.scale, params.offset, params.decay, doc['location'].value)", "params": { "origin": "40, -70.12", "scale": "200km", "offset": "0km", "decay" : 0.2 } } -------------------------------------------------- // NOTCONSOLE [[decay-functions-date-fields]] ====== Decay functions for date fields * `double decayDateLinear(String originStr, String scaleStr, String offsetStr, double decay, JodaCompatibleZonedDateTime docValueDate)` * `double decayDateExp(String originStr, String scaleStr, String offsetStr, double decay, JodaCompatibleZonedDateTime docValueDate)` * `double decayDateGauss(String originStr, String scaleStr, String offsetStr, double decay, JodaCompatibleZonedDateTime docValueDate)` [source,js] -------------------------------------------------- "script" : { "source" : "decayDateGauss(params.origin, params.scale, params.offset, params.decay, doc['date'].value)", "params": { "origin": "2008-01-01T01:00:00Z", "scale": "1h", "offset" : "0", "decay" : 0.5 } } -------------------------------------------------- // NOTCONSOLE NOTE: Decay functions on dates are limited to dates in the default format and default time zone. Also calculations with `now` are not supported. [[script-score-functions-vector-fields]] ====== Functions for vector fields <> are accessible through `script_score` query. [[script-score-faster-alt]] ===== Faster alternatives The `script_score` query calculates the score for every matching document, or hit. There are faster alternative query types that can efficiently skip non-competitive hits: * If you want to boost documents on some static fields, use the <> query. * If you want to boost documents closer to a date or geographic point, use the <> query. [[script-score-function-score-transition]] ===== Transition from the function score query We are deprecating the <> query. We recommend using the `script_score` query instead. You can implement the following functions from the `function_score` query using the `script_score` query: * <> * <> * <> * <> * <> [[script-score]] ====== `script_score` What you used in `script_score` of the Function Score query, you can copy into the Script Score query. No changes here. [[weight]] ====== `weight` `weight` function can be implemented in the Script Score query through the following script: [source,js] -------------------------------------------------- "script" : { "source" : "params.weight * _score", "params": { "weight": 2 } } -------------------------------------------------- // NOTCONSOLE [[random-score]] ====== `random_score` Use `randomScore` function as described in <>. [[field-value-factor]] ====== `field_value_factor` `field_value_factor` function can be easily implemented through script: [source,js] -------------------------------------------------- "script" : { "source" : "Math.log10(doc['field'].value * params.factor)", params" : { "factor" : 5 } } -------------------------------------------------- // NOTCONSOLE For checking if a document has a missing value, you can use `doc['field'].size() == 0`. For example, this script will use a value `1` if a document doesn't have a field `field`: [source,js] -------------------------------------------------- "script" : { "source" : "Math.log10((doc['field'].size() == 0 ? 1 : doc['field'].value()) * params.factor)", params" : { "factor" : 5 } } -------------------------------------------------- // NOTCONSOLE This table lists how `field_value_factor` modifiers can be implemented through a script: [cols="<,<",options="header",] |======================================================================= | Modifier | Implementation in Script Score | `none` | - | `log` | `Math.log10(doc['f'].value)` | `log1p` | `Math.log10(doc['f'].value + 1)` | `log2p` | `Math.log10(doc['f'].value + 2)` | `ln` | `Math.log(doc['f'].value)` | `ln1p` | `Math.log(doc['f'].value + 1)` | `ln2p` | `Math.log(doc['f'].value + 2)` | `square` | `Math.pow(doc['f'].value, 2)` | `sqrt` | `Math.sqrt(doc['f'].value)` | `reciprocal` | `1.0 / doc['f'].value` |======================================================================= [[decay-functions]] ====== `decay` functions The `script_score` query has equivalent <> that can be used in script. include::{es-repo-dir}/vectors/vector-functions.asciidoc[]