Normalize aggregationedit
A parent pipeline aggregation which calculates the specific normalized/rescaled value for a specific bucket value. Values that cannot be normalized, will be skipped using the skip gap policy.
Syntaxedit
A normalize
aggregation looks like this in isolation:
{ "normalize": { "buckets_path": "normalized", "method": "percent_of_sum" } }
Table 75. normalize_pipeline
Parameters
Parameter Name | Description | Required | Default Value |
---|---|---|---|
|
The path to the buckets we wish to normalize (see |
Required |
|
|
The specific method to apply |
Required |
|
|
DecimalFormat pattern for the
output value. If specified, the formatted value is returned in the aggregation’s
|
Optional |
|
Methodsedit
The Normalize Aggregation supports multiple methods to transform the bucket values. Each method definition will use
the following original set of bucket values as examples: [5, 5, 10, 50, 10, 20]
.
- rescale_0_1
-
This method rescales the data such that the minimum number is zero, and the maximum number is 1, with the rest normalized linearly in-between.
x' = (x - min_x) / (max_x - min_x)
[0, 0, .1111, 1, .1111, .3333]
- rescale_0_100
-
This method rescales the data such that the minimum number is zero, and the maximum number is 100, with the rest normalized linearly in-between.
x' = 100 * (x - min_x) / (max_x - min_x)
[0, 0, 11.11, 100, 11.11, 33.33]
- percent_of_sum
-
This method normalizes each value so that it represents a percentage of the total sum it attributes to.
x' = x / sum_x
[5%, 5%, 10%, 50%, 10%, 20%]
- mean
-
This method normalizes such that each value is normalized by how much it differs from the average.
x' = (x - mean_x) / (max_x - min_x)
[4.63, 4.63, 9.63, 49.63, 9.63, 9.63, 19.63]
- z-score
-
This method normalizes such that each value represents how far it is from the mean relative to the standard deviation
x' = (x - mean_x) / stdev_x
[-0.68, -0.68, -0.39, 1.94, -0.39, 0.19]
- softmax
-
This method normalizes such that each value is exponentiated and relative to the sum of the exponents of the original values.
x' = e^x / sum_e_x
[2.862E-20, 2.862E-20, 4.248E-18, 0.999, 9.357E-14, 4.248E-18]
Exampleedit
The following snippet calculates the percent of total sales for each month:
POST /sales/_search { "size": 0, "aggs": { "sales_per_month": { "date_histogram": { "field": "date", "calendar_interval": "month" }, "aggs": { "sales": { "sum": { "field": "price" } }, "percent_of_total_sales": { "normalize": { "buckets_path": "sales", "method": "percent_of_sum", "format": "00.00%" } } } } } }
|
|
|
|
|
And the following may be the response:
{ "took": 11, "timed_out": false, "_shards": ..., "hits": ..., "aggregations": { "sales_per_month": { "buckets": [ { "key_as_string": "2015/01/01 00:00:00", "key": 1420070400000, "doc_count": 3, "sales": { "value": 550.0 }, "percent_of_total_sales": { "value": 0.5583756345177665, "value_as_string": "55.84%" } }, { "key_as_string": "2015/02/01 00:00:00", "key": 1422748800000, "doc_count": 2, "sales": { "value": 60.0 }, "percent_of_total_sales": { "value": 0.06091370558375635, "value_as_string": "06.09%" } }, { "key_as_string": "2015/03/01 00:00:00", "key": 1425168000000, "doc_count": 2, "sales": { "value": 375.0 }, "percent_of_total_sales": { "value": 0.38071065989847713, "value_as_string": "38.07%" } } ] } } }