Wondering why a specific document ranks higher (or lower) for a query? You can use the explain API for an explanation of how the relevance score (`_score`) is calculated for every result.
OpenSearch uses a probabilistic ranking framework called [Okapi BM25](https://en.wikipedia.org/wiki/Okapi_BM25) to calculate relevance scores. Okapi BM25 is based on the original [TF/IDF](http://lucene.apache.org/core/4_0_0/core/org/apache/lucene/search/package-summary.html#scoring) framework used by Apache Lucene.
The explain API is an expensive operation in terms of both resources and time. On production clusters, we recommend using it sparingly for the purpose of troubleshooting.
POST kibana_sample_data_ecommerce/_explain/EVz1Q3sBgg5eWQP6RSte
{
"query": {
"match": {
"customer_first_name": "Mary"
}
}
}
```
## Path and HTTP methods
```
GET <target>/_explain/<id>
POST <target>/_explain/<id>
```
## URL parameters
You must specify the index and document ID. All other URL parameters are optional.
Parameter | Type | Description | Required
:--- | :--- | :--- | :---
`<index>` | String | Name of the index. You can only specify a single index. | Yes
`<_id>` | String | A unique identifier to attach to the document. | Yes
`analyzer` | String | The analyzer to use in the query string. | No
`analyze_wildcard` | Boolean | Specifies whether to analyze wildcard and prefix queries. Default is false. | No
`default_operator` | String | Indicates whether the default operator for a string query should be AND or OR. Default is OR. | No
`df` | String | The default field in case a field prefix is not provided in the query string. | No
`lenient` | Boolean | Specifies whether OpenSearch should ignore format-based query failures (for example, querying a text field for an integer). Default is false. | No
`preference` | String | Specifies a preference of which shard to retrieve results from. Available options are `_local`, which tells the operation to retrieve results from a locally allocated shard replica, and a custom string value assigned to a specific shard replica. By default, OpenSearch executes the explain operation on random shards. | No
`q` | String | Query in the Lucene query string syntax. | No
`stored_fields` | Boolean | If true, the operation retrieves document fields stored in the index rather than the document’s `_source`. Default is false. | No
`routing` | String | Value used to route the operation to a specific shard. | No
`_source` | String | Whether to include the `_source` field in the response body. Default is true. | No
`_source_excludes` | String | A comma-separated list of source fields to exclude in the query response. | No
`_source_includes` | String | A comma-separated list of source fields to include in the query response. | No
## Response
```json
{
"_index" : "kibana_sample_data_ecommerce",
"_type" : "_doc",
"_id" : "EVz1Q3sBgg5eWQP6RSte",
"matched" : true,
"explanation" : {
"value" : 3.5671005,
"description" : "weight(customer_first_name:mary in 1) [PerFieldSimilarity], result of:",
`matched` | Indicates if the document is a match for the query.
`explanation` | The `explanation` object has three properties: `value`, `description`, and `details`. The `value` shows the result of the calculation, the `description` explains what type of calculation is performed, and the `details` shows any subcalculations performed.
Term frequency (`tf`) | How many times the term appears in a field for a given document. The more times the term occurs the higher is the relevance score.
Inverse document frequency (`idf`) | How often the term appears within the index (across all the documents). The more often the term appears the lower is the relevance score.
Field normalization factor (`fieldNorm`) | The length of the field. OpenSearch assigns a higher relevance score to a term appearing in a relatively short field.
The `tf`, `idf`, and `fieldNorm` values are calculated and stored at index time when a document is added or updated. The values might have some (typically small) inaccuracies as it’s based on summing the samples returned from each shard.
Individual queries include other factors for calculating the relevance score, such as term proximity, fuzziness, and so on.