[role="xpack"] [testenv="basic"] [[vector-functions]] ===== Functions for vector fields experimental[] NOTE: During vector functions' calculation, all matched documents are linearly scanned. Thus, expect the query time grow linearly with the number of matched documents. For this reason, we recommend to limit the number of matched documents with a `query` parameter. ====== `dense_vector` functions Let's create an index with a `dense_vector` mapping and index a couple of documents into it. [source,console] -------------------------------------------------- PUT my_index { "mappings": { "properties": { "my_dense_vector": { "type": "dense_vector", "dims": 3 }, "status" : { "type" : "keyword" } } } } PUT my_index/_doc/1 { "my_dense_vector": [0.5, 10, 6], "status" : "published" } PUT my_index/_doc/2 { "my_dense_vector": [-0.5, 10, 10], "status" : "published" } POST my_index/_refresh -------------------------------------------------- // TESTSETUP The `cosineSimilarity` function calculates the measure of cosine similarity between a given query vector and document vectors. [source,console] -------------------------------------------------- GET my_index/_search { "query": { "script_score": { "query" : { "bool" : { "filter" : { "term" : { "status" : "published" <1> } } } }, "script": { "source": "cosineSimilarity(params.query_vector, 'my_dense_vector') + 1.0", <2> "params": { "query_vector": [4, 3.4, -0.2] <3> } } } } } -------------------------------------------------- <1> To restrict the number of documents on which script score calculation is applied, provide a filter. <2> The script adds 1.0 to the cosine similarity to prevent the score from being negative. <3> To take advantage of the script optimizations, provide a query vector as a script parameter. NOTE: If a document's dense vector field has a number of dimensions different from the query's vector, an error will be thrown. The `dotProduct` function calculates the measure of dot product between a given query vector and document vectors. [source,console] -------------------------------------------------- GET my_index/_search { "query": { "script_score": { "query" : { "bool" : { "filter" : { "term" : { "status" : "published" } } } }, "script": { "source": """ double value = dotProduct(params.query_vector, 'my_dense_vector'); return sigmoid(1, Math.E, -value); <1> """, "params": { "query_vector": [4, 3.4, -0.2] } } } } } -------------------------------------------------- <1> Using the standard sigmoid function prevents scores from being negative. The `l1norm` function calculates L^1^ distance (Manhattan distance) between a given query vector and document vectors. [source,console] -------------------------------------------------- GET my_index/_search { "query": { "script_score": { "query" : { "bool" : { "filter" : { "term" : { "status" : "published" } } } }, "script": { "source": "1 / (1 + l1norm(params.queryVector, 'my_dense_vector'))", <1> "params": { "queryVector": [4, 3.4, -0.2] } } } } } -------------------------------------------------- <1> Unlike `cosineSimilarity` that represent similarity, `l1norm` and `l2norm` shown below represent distances or differences. This means, that the more similar the vectors are, the lower the scores will be that are produced by the `l1norm` and `l2norm` functions. Thus, as we need more similar vectors to score higher, we reversed the output from `l1norm` and `l2norm`. Also, to avoid division by 0 when a document vector matches the query exactly, we added `1` in the denominator. The `l2norm` function calculates L^2^ distance (Euclidean distance) between a given query vector and document vectors. [source,console] -------------------------------------------------- GET my_index/_search { "query": { "script_score": { "query" : { "bool" : { "filter" : { "term" : { "status" : "published" } } } }, "script": { "source": "1 / (1 + l2norm(params.queryVector, 'my_dense_vector'))", "params": { "queryVector": [4, 3.4, -0.2] } } } } } -------------------------------------------------- NOTE: If a document doesn't have a value for a vector field on which a vector function is executed, an error will be thrown. You can check if a document has a value for the field `my_vector` by `doc['my_vector'].size() == 0`. Your overall script can look like this: [source,js] -------------------------------------------------- "source": "doc['my_vector'].size() == 0 ? 0 : cosineSimilarity(params.queryVector, 'my_vector')" -------------------------------------------------- // NOTCONSOLE ====== `sparse_vector` functions deprecated[7.6, The `sparse_vector` type is deprecated and will be removed in 8.0.] Let's create an index with a `sparse_vector` mapping and index a couple of documents into it. [source,console] -------------------------------------------------- PUT my_sparse_index { "mappings": { "properties": { "my_sparse_vector": { "type": "sparse_vector" }, "status" : { "type" : "keyword" } } } } -------------------------------------------------- // TEST[warning:The [sparse_vector] field type is deprecated and will be removed in 8.0.] [source,console] -------------------------------------------------- PUT my_sparse_index/_doc/1 { "my_sparse_vector": {"2": 1.5, "15" : 2, "50": -1.1, "4545": 1.1}, "status" : "published" } PUT my_sparse_index/_doc/2 { "my_sparse_vector": {"2": 2.5, "10" : 1.3, "55": -2.3, "113": 1.6}, "status" : "published" } POST my_sparse_index/_refresh -------------------------------------------------- // TEST[continued] The `cosineSimilaritySparse` function calculates cosine similarity between a given query vector and document vectors. [source,console] -------------------------------------------------- GET my_sparse_index/_search { "query": { "script_score": { "query" : { "bool" : { "filter" : { "term" : { "status" : "published" } } } }, "script": { "source": "cosineSimilaritySparse(params.query_vector, 'my_sparse_vector') + 1.0", "params": { "query_vector": {"2": 0.5, "10" : 111.3, "50": -1.3, "113": 14.8, "4545": 156.0} } } } } } -------------------------------------------------- // TEST[continued] // TEST[warning:The [sparse_vector] field type is deprecated and will be removed in 8.0.] The `dotProductSparse` function calculates dot product between a given query vector and document vectors. [source,console] -------------------------------------------------- GET my_sparse_index/_search { "query": { "script_score": { "query" : { "bool" : { "filter" : { "term" : { "status" : "published" } } } }, "script": { "source": """ double value = dotProductSparse(params.query_vector, 'my_sparse_vector'); return sigmoid(1, Math.E, -value); """, "params": { "query_vector": {"2": 0.5, "10" : 111.3, "50": -1.3, "113": 14.8, "4545": 156.0} } } } } } -------------------------------------------------- // TEST[continued] // TEST[warning:The [sparse_vector] field type is deprecated and will be removed in 8.0.] The `l1normSparse` function calculates L^1^ distance between a given query vector and document vectors. [source,console] -------------------------------------------------- GET my_sparse_index/_search { "query": { "script_score": { "query" : { "bool" : { "filter" : { "term" : { "status" : "published" } } } }, "script": { "source": "1 / (1 + l1normSparse(params.queryVector, 'my_sparse_vector'))", "params": { "queryVector": {"2": 0.5, "10" : 111.3, "50": -1.3, "113": 14.8, "4545": 156.0} } } } } } -------------------------------------------------- // TEST[continued] // TEST[warning:The [sparse_vector] field type is deprecated and will be removed in 8.0.] The `l2normSparse` function calculates L^2^ distance between a given query vector and document vectors. [source,console] -------------------------------------------------- GET my_sparse_index/_search { "query": { "script_score": { "query" : { "bool" : { "filter" : { "term" : { "status" : "published" } } } }, "script": { "source": "1 / (1 + l2normSparse(params.queryVector, 'my_sparse_vector'))", "params": { "queryVector": {"2": 0.5, "10" : 111.3, "50": -1.3, "113": 14.8, "4545": 156.0} } } } } } -------------------------------------------------- // TEST[continued] // TEST[warning:The [sparse_vector] field type is deprecated and will be removed in 8.0.]