Sort search results

edit

Allows you to add one or more sorts on specific fields. Each sort can be reversed as well. The sort is defined on a per field level, with special field name for _score to sort by score, and _doc to sort by index order.

Assuming the following index mapping:

response = client.indices.create(
  index: 'my-index-000001',
  body: {
    mappings: {
      properties: {
        post_date: {
          type: 'date'
        },
        user: {
          type: 'keyword'
        },
        name: {
          type: 'keyword'
        },
        age: {
          type: 'integer'
        }
      }
    }
  }
)
puts response
res, err := es.Indices.Create(
	"my-index-000001",
	es.Indices.Create.WithBody(strings.NewReader(`{
	  "mappings": {
	    "properties": {
	      "post_date": {
	        "type": "date"
	      },
	      "user": {
	        "type": "keyword"
	      },
	      "name": {
	        "type": "keyword"
	      },
	      "age": {
	        "type": "integer"
	      }
	    }
	  }
	}`)),
)
fmt.Println(res, err)
PUT /my-index-000001
{
  "mappings": {
    "properties": {
      "post_date": { "type": "date" },
      "user": {
        "type": "keyword"
      },
      "name": {
        "type": "keyword"
      },
      "age": { "type": "integer" }
    }
  }
}
GET /my-index-000001/_search
{
  "sort" : [
    { "post_date" : {"order" : "asc", "format": "strict_date_optional_time_nanos"}},
    "user",
    { "name" : "desc" },
    { "age" : "desc" },
    "_score"
  ],
  "query" : {
    "term" : { "user" : "kimchy" }
  }
}

_doc has no real use-case besides being the most efficient sort order. So if you don’t care about the order in which documents are returned, then you should sort by _doc. This especially helps when scrolling.

Sort Values

edit

The search response includes sort values for each document. Use the format parameter to specify a date format for the sort values of date and date_nanos fields. The following search returns sort values for the post_date field in the strict_date_optional_time_nanos format.

GET /my-index-000001/_search
{
  "sort" : [
    { "post_date" : {"format": "strict_date_optional_time_nanos"}}
  ],
  "query" : {
    "term" : { "user" : "kimchy" }
  }
}

Sort Order

edit

The order option can have the following values:

asc

Sort in ascending order

desc

Sort in descending order

The order defaults to desc when sorting on the _score, and defaults to asc when sorting on anything else.

Sort mode option

edit

Elasticsearch supports sorting by array or multi-valued fields. The mode option controls what array value is picked for sorting the document it belongs to. The mode option can have the following values:

min

Pick the lowest value.

max

Pick the highest value.

sum

Use the sum of all values as sort value. Only applicable for number based array fields.

avg

Use the average of all values as sort value. Only applicable for number based array fields.

median

Use the median of all values as sort value. Only applicable for number based array fields.

The default sort mode in the ascending sort order is min — the lowest value is picked. The default sort mode in the descending order is max — the highest value is picked.

Sort mode example usage

edit

In the example below the field price has multiple prices per document. In this case the result hits will be sorted by price ascending based on the average price per document.

response = client.index(
  index: 'my-index-000001',
  id: 1,
  refresh: true,
  body: {
    product: 'chocolate',
    price: [
      20,
      4
    ]
  }
)
puts response

response = client.index(
  body: {
    query: {
      term: {
        product: 'chocolate'
      }
    },
    sort: [
      {
        price: {
          order: 'asc',
          mode: 'avg'
        }
      }
    ]
  }
)
puts response
{
	res, err := es.Index(
		"my-index-000001",
		strings.NewReader(`{
	  "product": "chocolate",
	  "price": [
	    20,
	    4
	  ]
	}`),
		es.Index.WithDocumentID("1"),
		es.Index.WithRefresh("true"),
		es.Index.WithPretty(),
	)
	fmt.Println(res, err)
}

{
	res, err := es.Search(
		es.Search.WithBody(strings.NewReader(`{
	  "query": {
	    "term": {
	      "product": "chocolate"
	    }
	  },
	  "sort": [
	    {
	      "price": {
	        "order": "asc",
	        "mode": "avg"
	      }
	    }
	  ]
	}`)),
		es.Search.WithPretty(),
	)
	fmt.Println(res, err)
}
PUT /my-index-000001/_doc/1?refresh
{
   "product": "chocolate",
   "price": [20, 4]
}

POST /_search
{
   "query" : {
      "term" : { "product" : "chocolate" }
   },
   "sort" : [
      {"price" : {"order" : "asc", "mode" : "avg"}}
   ]
}

Sorting numeric fields

edit

For numeric fields it is also possible to cast the values from one type to another using the numeric_type option. This option accepts the following values: ["double", "long", "date", "date_nanos"] and can be useful for searches across multiple data streams or indices where the sort field is mapped differently.

Consider for instance these two indices:

response = client.indices.create(
  index: 'index_double',
  body: {
    mappings: {
      properties: {
        field: {
          type: 'double'
        }
      }
    }
  }
)
puts response
res, err := es.Indices.Create(
	"index_double",
	es.Indices.Create.WithBody(strings.NewReader(`{
	  "mappings": {
	    "properties": {
	      "field": {
	        "type": "double"
	      }
	    }
	  }
	}`)),
)
fmt.Println(res, err)
PUT /index_double
{
  "mappings": {
    "properties": {
      "field": { "type": "double" }
    }
  }
}
response = client.indices.create(
  index: 'index_long',
  body: {
    mappings: {
      properties: {
        field: {
          type: 'long'
        }
      }
    }
  }
)
puts response
res, err := es.Indices.Create(
	"index_long",
	es.Indices.Create.WithBody(strings.NewReader(`{
	  "mappings": {
	    "properties": {
	      "field": {
	        "type": "long"
	      }
	    }
	  }
	}`)),
)
fmt.Println(res, err)
PUT /index_long
{
  "mappings": {
    "properties": {
      "field": { "type": "long" }
    }
  }
}

Since field is mapped as a double in the first index and as a long in the second index, it is not possible to use this field to sort requests that query both indices by default. However you can force the type to one or the other with the numeric_type option in order to force a specific type for all indices:

$params = [
    'index' => 'index_long,index_double',
    'body' => [
        'sort' => [
            [
                'field' => [
                    'numeric_type' => 'double',
                ],
            ],
        ],
    ],
];
$response = $client->search($params);
resp = client.search(
    index=["index_long", "index_double"],
    body={"sort": [{"field": {"numeric_type": "double"}}]},
)
print(resp)
response = client.search(
  index: 'index_long,index_double',
  body: {
    sort: [
      {
        field: {
          numeric_type: 'double'
        }
      }
    ]
  }
)
puts response
res, err := es.Search(
	es.Search.WithIndex("index_long,index_double"),
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "field": {
	        "numeric_type": "double"
	      }
	    }
	  ]
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
const response = await client.search({
  index: 'index_long,index_double',
  body: {
    sort: [
      {
        field: {
          numeric_type: 'double'
        }
      }
    ]
  }
})
console.log(response)
POST /index_long,index_double/_search
{
   "sort" : [
      {
        "field" : {
            "numeric_type" : "double"
        }
      }
   ]
}

In the example above, values for the index_long index are casted to a double in order to be compatible with the values produced by the index_double index. It is also possible to transform a floating point field into a long but note that in this case floating points are replaced by the largest value that is less than or equal (greater than or equal if the value is negative) to the argument and is equal to a mathematical integer.

This option can also be used to convert a date field that uses millisecond resolution to a date_nanos field with nanosecond resolution. Consider for instance these two indices:

response = client.indices.create(
  index: 'index_double',
  body: {
    mappings: {
      properties: {
        field: {
          type: 'date'
        }
      }
    }
  }
)
puts response
res, err := es.Indices.Create(
	"index_double",
	es.Indices.Create.WithBody(strings.NewReader(`{
	  "mappings": {
	    "properties": {
	      "field": {
	        "type": "date"
	      }
	    }
	  }
	}`)),
)
fmt.Println(res, err)
PUT /index_double
{
  "mappings": {
    "properties": {
      "field": { "type": "date" }
    }
  }
}
response = client.indices.create(
  index: 'index_long',
  body: {
    mappings: {
      properties: {
        field: {
          type: 'date_nanos'
        }
      }
    }
  }
)
puts response
res, err := es.Indices.Create(
	"index_long",
	es.Indices.Create.WithBody(strings.NewReader(`{
	  "mappings": {
	    "properties": {
	      "field": {
	        "type": "date_nanos"
	      }
	    }
	  }
	}`)),
)
fmt.Println(res, err)
PUT /index_long
{
  "mappings": {
    "properties": {
      "field": { "type": "date_nanos" }
    }
  }
}

Values in these indices are stored with different resolutions so sorting on these fields will always sort the date before the date_nanos (ascending order). With the numeric_type type option it is possible to set a single resolution for the sort, setting to date will convert the date_nanos to the millisecond resolution while date_nanos will convert the values in the date field to the nanoseconds resolution:

$params = [
    'index' => 'index_long,index_double',
    'body' => [
        'sort' => [
            [
                'field' => [
                    'numeric_type' => 'date_nanos',
                ],
            ],
        ],
    ],
];
$response = $client->search($params);
resp = client.search(
    index=["index_long", "index_double"],
    body={"sort": [{"field": {"numeric_type": "date_nanos"}}]},
)
print(resp)
response = client.search(
  index: 'index_long,index_double',
  body: {
    sort: [
      {
        field: {
          numeric_type: 'date_nanos'
        }
      }
    ]
  }
)
puts response
res, err := es.Search(
	es.Search.WithIndex("index_long,index_double"),
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "field": {
	        "numeric_type": "date_nanos"
	      }
	    }
	  ]
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
const response = await client.search({
  index: 'index_long,index_double',
  body: {
    sort: [
      {
        field: {
          numeric_type: 'date_nanos'
        }
      }
    ]
  }
})
console.log(response)
POST /index_long,index_double/_search
{
   "sort" : [
      {
        "field" : {
            "numeric_type" : "date_nanos"
        }
      }
   ]
}

To avoid overflow, the conversion to date_nanos cannot be applied on dates before 1970 and after 2262 as nanoseconds are represented as longs.

Sorting within nested objects.

edit

Elasticsearch also supports sorting by fields that are inside one or more nested objects. The sorting by nested field support has a nested sort option with the following properties:

path
Defines on which nested object to sort. The actual sort field must be a direct field inside this nested object. When sorting by nested field, this field is mandatory.
filter
A filter that the inner objects inside the nested path should match with in order for its field values to be taken into account by sorting. Common case is to repeat the query / filter inside the nested filter or query. By default no filter is active.
max_children
The maximum number of children to consider per root document when picking the sort value. Defaults to unlimited.
nested
Same as top-level nested but applies to another nested path within the current nested object.

Elasticsearch will throw an error if a nested field is defined in a sort without a nested context.

Nested sorting examples

edit

In the below example offer is a field of type nested. The nested path needs to be specified; otherwise, Elasticsearch doesn’t know on what nested level sort values need to be captured.

$params = [
    'body' => [
        'query' => [
            'term' => [
                'product' => 'chocolate',
            ],
        ],
        'sort' => [
            [
                'offer.price' => [
                    'mode' => 'avg',
                    'order' => 'asc',
                    'nested' => [
                        'path' => 'offer',
                        'filter' => [
                            'term' => [
                                'offer.color' => 'blue',
                            ],
                        ],
                    ],
                ],
            ],
        ],
    ],
];
$response = $client->search($params);
resp = client.search(
    body={
        "query": {"term": {"product": "chocolate"}},
        "sort": [
            {
                "offer.price": {
                    "mode": "avg",
                    "order": "asc",
                    "nested": {
                        "path": "offer",
                        "filter": {"term": {"offer.color": "blue"}},
                    },
                }
            }
        ],
    },
)
print(resp)
response = client.search(
  body: {
    query: {
      term: {
        product: 'chocolate'
      }
    },
    sort: [
      {
        "offer.price": {
          mode: 'avg',
          order: 'asc',
          nested: {
            path: 'offer',
            filter: {
              term: {
                "offer.color": 'blue'
              }
            }
          }
        }
      }
    ]
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "query": {
	    "term": {
	      "product": "chocolate"
	    }
	  },
	  "sort": [
	    {
	      "offer.price": {
	        "mode": "avg",
	        "order": "asc",
	        "nested": {
	          "path": "offer",
	          "filter": {
	            "term": {
	              "offer.color": "blue"
	            }
	          }
	        }
	      }
	    }
	  ]
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
const response = await client.search({
  body: {
    query: {
      term: {
        product: 'chocolate'
      }
    },
    sort: [
      {
        'offer.price': {
          mode: 'avg',
          order: 'asc',
          nested: {
            path: 'offer',
            filter: {
              term: {
                'offer.color': 'blue'
              }
            }
          }
        }
      }
    ]
  }
})
console.log(response)
POST /_search
{
   "query" : {
      "term" : { "product" : "chocolate" }
   },
   "sort" : [
       {
          "offer.price" : {
             "mode" :  "avg",
             "order" : "asc",
             "nested": {
                "path": "offer",
                "filter": {
                   "term" : { "offer.color" : "blue" }
                }
             }
          }
       }
    ]
}

In the below example parent and child fields are of type nested. The nested.path needs to be specified at each level; otherwise, Elasticsearch doesn’t know on what nested level sort values need to be captured.

$params = [
    'body' => [
        'query' => [
            'nested' => [
                'path' => 'parent',
                'query' => [
                    'bool' => [
                        'must' => [
                            'range' => [
                                'parent.age' => [
                                    'gte' => 21,
                                ],
                            ],
                        ],
                        'filter' => [
                            'nested' => [
                                'path' => 'parent.child',
                                'query' => [
                                    'match' => [
                                        'parent.child.name' => 'matt',
                                    ],
                                ],
                            ],
                        ],
                    ],
                ],
            ],
        ],
        'sort' => [
            [
                'parent.child.age' => [
                    'mode' => 'min',
                    'order' => 'asc',
                    'nested' => [
                        'path' => 'parent',
                        'filter' => [
                            'range' => [
                                'parent.age' => [
                                    'gte' => 21,
                                ],
                            ],
                        ],
                        'nested' => [
                            'path' => 'parent.child',
                            'filter' => [
                                'match' => [
                                    'parent.child.name' => 'matt',
                                ],
                            ],
                        ],
                    ],
                ],
            ],
        ],
    ],
];
$response = $client->search($params);
resp = client.search(
    body={
        "query": {
            "nested": {
                "path": "parent",
                "query": {
                    "bool": {
                        "must": {"range": {"parent.age": {"gte": 21}}},
                        "filter": {
                            "nested": {
                                "path": "parent.child",
                                "query": {
                                    "match": {"parent.child.name": "matt"}
                                },
                            }
                        },
                    }
                },
            }
        },
        "sort": [
            {
                "parent.child.age": {
                    "mode": "min",
                    "order": "asc",
                    "nested": {
                        "path": "parent",
                        "filter": {"range": {"parent.age": {"gte": 21}}},
                        "nested": {
                            "path": "parent.child",
                            "filter": {
                                "match": {"parent.child.name": "matt"}
                            },
                        },
                    },
                }
            }
        ],
    },
)
print(resp)
response = client.search(
  body: {
    query: {
      nested: {
        path: 'parent',
        query: {
          bool: {
            must: {
              range: {
                "parent.age": {
                  gte: 21
                }
              }
            },
            filter: {
              nested: {
                path: 'parent.child',
                query: {
                  match: {
                    "parent.child.name": 'matt'
                  }
                }
              }
            }
          }
        }
      }
    },
    sort: [
      {
        "parent.child.age": {
          mode: 'min',
          order: 'asc',
          nested: {
            path: 'parent',
            filter: {
              range: {
                "parent.age": {
                  gte: 21
                }
              }
            },
            nested: {
              path: 'parent.child',
              filter: {
                match: {
                  "parent.child.name": 'matt'
                }
              }
            }
          }
        }
      }
    ]
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "query": {
	    "nested": {
	      "path": "parent",
	      "query": {
	        "bool": {
	          "must": {
	            "range": {
	              "parent.age": {
	                "gte": 21
	              }
	            }
	          },
	          "filter": {
	            "nested": {
	              "path": "parent.child",
	              "query": {
	                "match": {
	                  "parent.child.name": "matt"
	                }
	              }
	            }
	          }
	        }
	      }
	    }
	  },
	  "sort": [
	    {
	      "parent.child.age": {
	        "mode": "min",
	        "order": "asc",
	        "nested": {
	          "path": "parent",
	          "filter": {
	            "range": {
	              "parent.age": {
	                "gte": 21
	              }
	            }
	          },
	          "nested": {
	            "path": "parent.child",
	            "filter": {
	              "match": {
	                "parent.child.name": "matt"
	              }
	            }
	          }
	        }
	      }
	    }
	  ]
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
const response = await client.search({
  body: {
    query: {
      nested: {
        path: 'parent',
        query: {
          bool: {
            must: {
              range: {
                'parent.age': {
                  gte: 21
                }
              }
            },
            filter: {
              nested: {
                path: 'parent.child',
                query: {
                  match: {
                    'parent.child.name': 'matt'
                  }
                }
              }
            }
          }
        }
      }
    },
    sort: [
      {
        'parent.child.age': {
          mode: 'min',
          order: 'asc',
          nested: {
            path: 'parent',
            filter: {
              range: {
                'parent.age': {
                  gte: 21
                }
              }
            },
            nested: {
              path: 'parent.child',
              filter: {
                match: {
                  'parent.child.name': 'matt'
                }
              }
            }
          }
        }
      }
    ]
  }
})
console.log(response)
POST /_search
{
   "query": {
      "nested": {
         "path": "parent",
         "query": {
            "bool": {
                "must": {"range": {"parent.age": {"gte": 21}}},
                "filter": {
                    "nested": {
                        "path": "parent.child",
                        "query": {"match": {"parent.child.name": "matt"}}
                    }
                }
            }
         }
      }
   },
   "sort" : [
      {
         "parent.child.age" : {
            "mode" :  "min",
            "order" : "asc",
            "nested": {
               "path": "parent",
               "filter": {
                  "range": {"parent.age": {"gte": 21}}
               },
               "nested": {
                  "path": "parent.child",
                  "filter": {
                     "match": {"parent.child.name": "matt"}
                  }
               }
            }
         }
      }
   ]
}

Nested sorting is also supported when sorting by scripts and sorting by geo distance.

Missing Values

edit

The missing parameter specifies how docs which are missing the sort field should be treated: The missing value can be set to _last, _first, or a custom value (that will be used for missing docs as the sort value). The default is _last.

For example:

response = client.search(
  body: {
    sort: [
      {
        price: {
          missing: '_last'
        }
      }
    ],
    query: {
      term: {
        product: 'chocolate'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "price": {
	        "missing": "_last"
	      }
	    }
	  ],
	  "query": {
	    "term": {
	      "product": "chocolate"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "sort" : [
    { "price" : {"missing" : "_last"} }
  ],
  "query" : {
    "term" : { "product" : "chocolate" }
  }
}

If a nested inner object doesn’t match with the nested.filter then a missing value is used.

Ignoring Unmapped Fields

edit

By default, the search request will fail if there is no mapping associated with a field. The unmapped_type option allows you to ignore fields that have no mapping and not sort by them. The value of this parameter is used to determine what sort values to emit. Here is an example of how it can be used:

response = client.search(
  body: {
    sort: [
      {
        price: {
          unmapped_type: 'long'
        }
      }
    ],
    query: {
      term: {
        product: 'chocolate'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "price": {
	        "unmapped_type": "long"
	      }
	    }
	  ],
	  "query": {
	    "term": {
	      "product": "chocolate"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "sort" : [
    { "price" : {"unmapped_type" : "long"} }
  ],
  "query" : {
    "term" : { "product" : "chocolate" }
  }
}

If any of the indices that are queried doesn’t have a mapping for price then Elasticsearch will handle it as if there was a mapping of type long, with all documents in this index having no value for this field.

Geo Distance Sorting

edit

Allow to sort by _geo_distance. Here is an example, assuming pin.location is a field of type geo_point:

response = client.search(
  body: {
    sort: [
      {
        _geo_distance: {
          "pin.location": [
            -70,
            40
          ],
          order: 'asc',
          unit: 'km',
          mode: 'min',
          distance_type: 'arc',
          ignore_unmapped: true
        }
      }
    ],
    query: {
      term: {
        user: 'kimchy'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "_geo_distance": {
	        "pin.location": [
	          -70,
	          40
	        ],
	        "order": "asc",
	        "unit": "km",
	        "mode": "min",
	        "distance_type": "arc",
	        "ignore_unmapped": true
	      }
	    }
	  ],
	  "query": {
	    "term": {
	      "user": "kimchy"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "sort" : [
    {
      "_geo_distance" : {
          "pin.location" : [-70, 40],
          "order" : "asc",
          "unit" : "km",
          "mode" : "min",
          "distance_type" : "arc",
          "ignore_unmapped": true
      }
    }
  ],
  "query" : {
    "term" : { "user" : "kimchy" }
  }
}
distance_type
How to compute the distance. Can either be arc (default), or plane (faster, but inaccurate on long distances and close to the poles).
mode
What to do in case a field has several geo points. By default, the shortest distance is taken into account when sorting in ascending order and the longest distance when sorting in descending order. Supported values are min, max, median and avg.
unit
The unit to use when computing sort values. The default is m (meters).
ignore_unmapped
Indicates if the unmapped field should be treated as a missing value. Setting it to true is equivalent to specifying an unmapped_type in the field sort. The default is false (unmapped field cause the search to fail).

geo distance sorting does not support configurable missing values: the distance will always be considered equal to Infinity when a document does not have values for the field that is used for distance computation.

The following formats are supported in providing the coordinates:

Lat Lon as Properties

edit
response = client.search(
  body: {
    sort: [
      {
        _geo_distance: {
          "pin.location": {
            lat: 40,
            lon: -70
          },
          order: 'asc',
          unit: 'km'
        }
      }
    ],
    query: {
      term: {
        user: 'kimchy'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "_geo_distance": {
	        "pin.location": {
	          "lat": 40,
	          "lon": -70
	        },
	        "order": "asc",
	        "unit": "km"
	      }
	    }
	  ],
	  "query": {
	    "term": {
	      "user": "kimchy"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "sort" : [
    {
      "_geo_distance" : {
        "pin.location" : {
          "lat" : 40,
          "lon" : -70
        },
        "order" : "asc",
        "unit" : "km"
      }
    }
  ],
  "query" : {
    "term" : { "user" : "kimchy" }
  }
}

Lat Lon as WKT String

edit

Format in Well-Known Text.

response = client.search(
  body: {
    sort: [
      {
        _geo_distance: {
          "pin.location": 'POINT (-70 40)',
          order: 'asc',
          unit: 'km'
        }
      }
    ],
    query: {
      term: {
        user: 'kimchy'
      }
    }
  }
)
puts response
GET /_search
{
  "sort": [
    {
      "_geo_distance": {
        "pin.location": "POINT (-70 40)",
        "order": "asc",
        "unit": "km"
      }
    }
  ],
  "query": {
    "term": { "user": "kimchy" }
  }
}

Geohash

edit
response = client.search(
  body: {
    sort: [
      {
        _geo_distance: {
          "pin.location": 'drm3btev3e86',
          order: 'asc',
          unit: 'km'
        }
      }
    ],
    query: {
      term: {
        user: 'kimchy'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "_geo_distance": {
	        "pin.location": "drm3btev3e86",
	        "order": "asc",
	        "unit": "km"
	      }
	    }
	  ],
	  "query": {
	    "term": {
	      "user": "kimchy"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "sort": [
    {
      "_geo_distance": {
        "pin.location": "drm3btev3e86",
        "order": "asc",
        "unit": "km"
      }
    }
  ],
  "query": {
    "term": { "user": "kimchy" }
  }
}

Lat Lon as Array

edit

Format in [lon, lat], note, the order of lon/lat here in order to conform with GeoJSON.

response = client.search(
  body: {
    sort: [
      {
        _geo_distance: {
          "pin.location": [
            -70,
            40
          ],
          order: 'asc',
          unit: 'km'
        }
      }
    ],
    query: {
      term: {
        user: 'kimchy'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "_geo_distance": {
	        "pin.location": [
	          -70,
	          40
	        ],
	        "order": "asc",
	        "unit": "km"
	      }
	    }
	  ],
	  "query": {
	    "term": {
	      "user": "kimchy"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "sort": [
    {
      "_geo_distance": {
        "pin.location": [ -70, 40 ],
        "order": "asc",
        "unit": "km"
      }
    }
  ],
  "query": {
    "term": { "user": "kimchy" }
  }
}

Multiple reference points

edit

Multiple geo points can be passed as an array containing any geo_point format, for example

response = client.search(
  body: {
    sort: [
      {
        _geo_distance: {
          "pin.location": [
            [
              -70,
              40
            ],
            [
              -71,
              42
            ]
          ],
          order: 'asc',
          unit: 'km'
        }
      }
    ],
    query: {
      term: {
        user: 'kimchy'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "sort": [
	    {
	      "_geo_distance": {
	        "pin.location": [
	          [
	            -70,
	            40
	          ],
	          [
	            -71,
	            42
	          ]
	        ],
	        "order": "asc",
	        "unit": "km"
	      }
	    }
	  ],
	  "query": {
	    "term": {
	      "user": "kimchy"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "sort": [
    {
      "_geo_distance": {
        "pin.location": [ [ -70, 40 ], [ -71, 42 ] ],
        "order": "asc",
        "unit": "km"
      }
    }
  ],
  "query": {
    "term": { "user": "kimchy" }
  }
}

and so forth.

The final distance for a document will then be min/max/avg (defined via mode) distance of all points contained in the document to all points given in the sort request.

Script Based Sorting

edit

Allow to sort based on custom scripts, here is an example:

response = client.search(
  body: {
    query: {
      term: {
        user: 'kimchy'
      }
    },
    sort: {
      _script: {
        type: 'number',
        script: {
          lang: 'painless',
          source: "doc['field_name'].value * params.factor",
          params: {
            factor: 1.1
          }
        },
        order: 'asc'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "query": {
	    "term": {
	      "user": "kimchy"
	    }
	  },
	  "sort": {
	    "_script": {
	      "type": "number",
	      "script": {
	        "lang": "painless",
	        "source": "doc['field_name'].value * params.factor",
	        "params": {
	          "factor": 1.1
	        }
	      },
	      "order": "asc"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "query": {
    "term": { "user": "kimchy" }
  },
  "sort": {
    "_script": {
      "type": "number",
      "script": {
        "lang": "painless",
        "source": "doc['field_name'].value * params.factor",
        "params": {
          "factor": 1.1
        }
      },
      "order": "asc"
    }
  }
}

Track Scores

edit

When sorting on a field, scores are not computed. By setting track_scores to true, scores will still be computed and tracked.

response = client.search(
  body: {
    track_scores: true,
    sort: [
      {
        post_date: {
          order: 'desc'
        }
      },
      {
        name: 'desc'
      },
      {
        age: 'desc'
      }
    ],
    query: {
      term: {
        user: 'kimchy'
      }
    }
  }
)
puts response
res, err := es.Search(
	es.Search.WithBody(strings.NewReader(`{
	  "track_scores": true,
	  "sort": [
	    {
	      "post_date": {
	        "order": "desc"
	      }
	    },
	    {
	      "name": "desc"
	    },
	    {
	      "age": "desc"
	    }
	  ],
	  "query": {
	    "term": {
	      "user": "kimchy"
	    }
	  }
	}`)),
	es.Search.WithPretty(),
)
fmt.Println(res, err)
GET /_search
{
  "track_scores": true,
  "sort" : [
    { "post_date" : {"order" : "desc"} },
    { "name" : "desc" },
    { "age" : "desc" }
  ],
  "query" : {
    "term" : { "user" : "kimchy" }
  }
}

Memory Considerations

edit

When sorting, the relevant sorted field values are loaded into memory. This means that per shard, there should be enough memory to contain them. For string based types, the field sorted on should not be analyzed / tokenized. For numeric types, if possible, it is recommended to explicitly set the type to narrower types (like short, integer and float).