Common Terms Queryedit
Deprecated in 7.3.0.
Use Match instead, which skips blocks of documents efficiently, without any configuration, provided that the total number of hits is not tracked.
The common
terms query is a modern alternative to stopwords which
improves the precision and recall of search results (by taking stopwords
into account), without sacrificing performance.
The problemedit
Every term in a query has a cost. A search for "The brown fox"
requires three term queries, one for each of "the"
, "brown"
and
"fox"
, all of which are executed against all documents in the index.
The query for "the"
is likely to match many documents and thus has a
much smaller impact on relevance than the other two terms.
Previously, the solution to this problem was to ignore terms with high
frequency. By treating "the"
as a stopword, we reduce the index size
and reduce the number of term queries that need to be executed.
The problem with this approach is that, while stopwords have a small
impact on relevance, they are still important. If we remove stopwords,
we lose precision, (eg we are unable to distinguish between "happy"
and "not happy"
) and we lose recall (eg text like "The The"
or
"To be or not to be"
would simply not exist in the index).
The solutionedit
The common
terms query divides the query terms into two groups: more
important (ie low frequency terms) and less important (ie high
frequency terms which would previously have been stopwords).
First it searches for documents which match the more important terms. These are the terms which appear in fewer documents and have a greater impact on relevance.
Then, it executes a second query for the less important terms — terms
which appear frequently and have a low impact on relevance. But instead
of calculating the relevance score for all matching documents, it only
calculates the _score
for documents already matched by the first
query. In this way the high frequency terms can improve the relevance
calculation without paying the cost of poor performance.
If a query consists only of high frequency terms, then a single query is
executed as an AND
(conjunction) query, in other words all terms are
required. Even though each individual term will match many documents,
the combination of terms narrows down the resultset to only the most
relevant. The single query can also be executed as an OR
with a
specific
minimum_should_match
,
in this case a high enough value should probably be used.
Terms are allocated to the high or low frequency groups based on the
cutoff_frequency
, which can be specified as an absolute frequency
(>=1
) or as a relative frequency (0.0 .. 1.0
). (Remember that document
frequencies are computed on a per shard level as explained in the blog post
Relevance is broken.)
Perhaps the most interesting property of this query is that it adapts to
domain specific stopwords automatically. For example, on a video hosting
site, common terms like "clip"
or "video"
will automatically behave
as stopwords without the need to maintain a manual list.
Examplesedit
In this example, words that have a document frequency greater than 0.1%
(eg "this"
and "is"
) will be treated as common terms.
GET /_search { "query": { "common": { "body": { "query": "this is bonsai cool", "cutoff_frequency": 0.001 } } } }
The number of terms which should match can be controlled with the
minimum_should_match
(high_freq
, low_freq
), low_freq_operator
(default "or"
) and
high_freq_operator
(default "or"
) parameters.
For low frequency terms, set the low_freq_operator
to "and"
to make
all terms required:
GET /_search { "query": { "common": { "body": { "query": "nelly the elephant as a cartoon", "cutoff_frequency": 0.001, "low_freq_operator": "and" } } } }
which is roughly equivalent to:
GET /_search { "query": { "bool": { "must": [ { "term": { "body": "nelly"}}, { "term": { "body": "elephant"}}, { "term": { "body": "cartoon"}} ], "should": [ { "term": { "body": "the"}}, { "term": { "body": "as"}}, { "term": { "body": "a"}} ] } } }
Alternatively use
minimum_should_match
to specify a minimum number or percentage of low frequency terms which
must be present, for instance:
GET /_search { "query": { "common": { "body": { "query": "nelly the elephant as a cartoon", "cutoff_frequency": 0.001, "minimum_should_match": 2 } } } }
which is roughly equivalent to:
GET /_search { "query": { "bool": { "must": { "bool": { "should": [ { "term": { "body": "nelly"}}, { "term": { "body": "elephant"}}, { "term": { "body": "cartoon"}} ], "minimum_should_match": 2 } }, "should": [ { "term": { "body": "the"}}, { "term": { "body": "as"}}, { "term": { "body": "a"}} ] } } }
A different
minimum_should_match
can be applied for low and high frequency terms with the additional
low_freq
and high_freq
parameters. Here is an example when providing
additional parameters (note the change in structure):
GET /_search { "query": { "common": { "body": { "query": "nelly the elephant not as a cartoon", "cutoff_frequency": 0.001, "minimum_should_match": { "low_freq" : 2, "high_freq" : 3 } } } } }
which is roughly equivalent to:
GET /_search { "query": { "bool": { "must": { "bool": { "should": [ { "term": { "body": "nelly"}}, { "term": { "body": "elephant"}}, { "term": { "body": "cartoon"}} ], "minimum_should_match": 2 } }, "should": { "bool": { "should": [ { "term": { "body": "the"}}, { "term": { "body": "not"}}, { "term": { "body": "as"}}, { "term": { "body": "a"}} ], "minimum_should_match": 3 } } } } }
In this case it means the high frequency terms have only an impact on
relevance when there are at least three of them. But the most
interesting use of the
minimum_should_match
for high frequency terms is when there are only high frequency terms:
GET /_search { "query": { "common": { "body": { "query": "how not to be", "cutoff_frequency": 0.001, "minimum_should_match": { "low_freq" : 2, "high_freq" : 3 } } } } }
which is roughly equivalent to:
GET /_search { "query": { "bool": { "should": [ { "term": { "body": "how"}}, { "term": { "body": "not"}}, { "term": { "body": "to"}}, { "term": { "body": "be"}} ], "minimum_should_match": "3<50%" } } }
The high frequency generated query is then slightly less restrictive
than with an AND
.
The common
terms query also supports boost
and analyzer
as
parameters.