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Transforming Dimension Values
The following JSON fields can be used in a query to operate on dimension values.
DimensionSpec
DimensionSpec
s define how dimension values get transformed prior to aggregation.
Default DimensionSpec
Returns dimension values as is and optionally renames the dimension.
{ "type" : "default", "dimension" : <dimension>, "outputName": <output_name> }
Extraction DimensionSpec
Returns dimension values transformed using the given extraction function.
{
"type" : "extraction",
"dimension" : <dimension>,
"outputName" : <output_name>,
"extractionFn" : <extraction_function>
}
Extraction Functions
Extraction functions define the transformation applied to each dimension value.
Transformations can be applied to both regular (string) dimensions, as well
as the special __time
dimension, which represents the current time bucket
according to the query aggregation granularity.
Note: for functions taking string values (such as regular expressions),
__time
dimension values will be formatted in ISO-8601 format
before getting passed to the extraction function.
Regular Expression Extraction Function
Returns the first matching group for the given regular expression. If there is no match, it returns the dimension value as is.
{
"type" : "regex", "expr" : <regular_expression>,
"replaceMissingValues" : true,
"replaceMissingValuesWith" : "foobar"
}
For example, using "expr" : "(\\w\\w\\w).*"
will transform
'Monday'
, 'Tuesday'
, 'Wednesday'
into 'Mon'
, 'Tue'
, 'Wed'
.
If the replaceMissingValues
property is true, the extraction function will transform dimension values that do not match the regex pattern to a user-specified String. Default value is false
.
The replaceMissingValuesWith
property sets the String that unmatched dimension values will be replaced with, if replaceMissingValues
is true. If replaceMissingValuesWith
is not specified, unmatched dimension values will be replaced with nulls.
For example, if expr
is "(a\w+)"
in the example JSON above, a regex that matches words starting with the letter a
, the extraction function will convert a dimension value like banana
to foobar
.
Partial Extraction Function
Returns the dimension value unchanged if the regular expression matches, otherwise returns null.
{ "type" : "partial", "expr" : <regular_expression> }
Search Query Extraction Function
Returns the dimension value unchanged if the given SearchQuerySpec
matches, otherwise returns null.
{ "type" : "searchQuery", "query" : <search_query_spec> }
Substring Extraction Function
Returns a substring of the dimension value starting from the supplied index and of the desired length. If the desired length exceeds the length of the dimension value, the remainder of the string starting at index will be returned. If index is greater than the length of the dimension value, null will be returned.
{ "type" : "substring", "index" : 1, "length" : 4 }
The length may be omitted for substring to return the remainder of the dimension value starting from index, or null if index greater than the length of the dimension value.
{ "type" : "substring", "index" : 3 }
Time Format Extraction Function
Returns the dimension value formatted according to the given format string, time zone, and locale.
For __time
dimension values, this formats the time value bucketed by the
aggregation granularity
For a regular dimension, it assumes the string is formatted in ISO-8601 date and time format.
format
: date time format for the resulting dimension value, in Joda Time DateTimeFormat.locale
: locale (language and country) to use, given as a IETF BCP 47 language tag, e.g.en-US
,en-GB
,fr-FR
,fr-CA
, etc.timeZone
: time zone to use in IANA tz database format, e.g.Europe/Berlin
(this can possibly be different than the aggregation time-zone)
{ "type" : "timeFormat",
"format" : <output_format>,
"timeZone" : <time_zone> (optional),
"locale" : <locale> (optional) }
For example, the following dimension spec returns the day of the week for Montréal in French:
{
"type" : "extraction",
"dimension" : "__time",
"outputName" : "dayOfWeek",
"extractionFn" : {
"type" : "timeFormat",
"format" : "EEEE",
"timeZone" : "America/Montreal",
"locale" : "fr"
}
}
Time Parsing Extraction Function
Parses dimension values as timestamps using the given input format, and returns them formatted using the given output format.
Note, if you are working with the __time
dimension, you should consider using the
time extraction function instead instead,
which works on time value directly as opposed to string values.
Time formats are described in the SimpleDateFormat documentation
{ "type" : "time",
"timeFormat" : <input_format>,
"resultFormat" : <output_format> }
Javascript Extraction Function
Returns the dimension value, as transformed by the given JavaScript function.
For regular dimensions, the input value is passed as a string.
For the __time
dimension, the input value is passed as a number
representing the number of milliseconds since January 1, 1970 UTC.
Example for a regular dimension
{
"type" : "javascript",
"function" : "function(str) { return str.substr(0, 3); }"
}
{
"type" : "javascript",
"function" : "function(str) { return str + '!!!'; }",
"injective" : true
}
A property of injective
specifies if the javascript function preserves uniqueness. The default value is false
meaning uniqueness is not preserved
Example for the __time
dimension:
{
"type" : "javascript",
"function" : "function(t) { return 'Second ' + Math.floor((t % 60000) / 1000); }"
}
Lookup extraction function
Lookups are a concept in Druid where dimension values are (optionally) replaced with new values. For more documentation on using lookups, please see here. Explicit lookups allow you to specify a set of keys and values to use when performing the extraction.
{
"type":"lookup",
"lookup":{
"type":"map",
"map":{"foo":"bar", "baz":"bat"}
},
"retainMissingValue":true,
"injective":true
}
{
"type":"lookup",
"lookup":{
"type":"map",
"map":{"foo":"bar", "baz":"bat"}
},
"retainMissingValue":false,
"injective":false,
"replaceMissingValueWith":"MISSING"
}
{
"type":"lookup",
"lookup":{"type":"namespace","namespace":"some_lookup"},
"replaceMissingValueWith":"Unknown",
"injective":false
}
{
"type":"lookup",
"lookup":{"type":"namespace","namespace":"some_lookup"},
"retainMissingValue":true,
"injective":false
}
A lookup can be of type namespace
or map
. A map
lookup is passed as part of the query.
A namespace
lookup is populated on all the nodes which handle queries as per lookups
A property of retainMissingValue
and replaceMissingValueWith
can be specified at query time to hint how to handle missing values. Setting replaceMissingValueWith
to ""
has the same effect as setting it to null
or omitting the property. Setting retainMissingValue
to true will use the dimension's original value if it is not found in the lookup. The default values are replaceMissingValueWith = null
and retainMissingValue = false
which causes missing values to be treated as missing.
It is illegal to set retainMissingValue = true
and also specify a replaceMissingValueWith
.
A property of injective
specifies if optimizations can be used which assume there is no combining of multiple names into one. For example: If ABC123 is the only key that maps to SomeCompany, that can be optimized since it is a unique lookup. But if both ABC123 and DEF456 BOTH map to SomeCompany, then that is NOT a unique lookup. Setting this value to true and setting retainMissingValue
to FALSE (the default) may cause undesired behavior.
A property optimize
can be supplied to allow optimization of lookup based extraction filter (by default optimize = true
).
The optimization layer will run on the broker and it will rewrite the extraction filter as clause of selector filters.
For instance the following filter
{
"filter": {
"type": "extraction",
"dimension": "product",
"value": "bar_1",
"extractionFn": {
"type": "lookup",
"optimize": true,
"lookup": {
"type": "map",
"map": {
"product_1": "bar_1",
"product_3": "bar_1"
}
}
}
}
}
will be rewritten as
{
"filter":{
"type":"or",
"fields":[
{
"filter":{
"type":"selector",
"dimension":"product",
"value":"product_1"
}
},
{
"filter":{
"type":"selector",
"dimension":"product",
"value":"product_3"
}
}
]
}
}
A null dimension value can be mapped to a specific value by specifying the empty string as the key.
This allows distinguishing between a null dimension and a lookup resulting in a null.
For example, specifying {"":"bar","bat":"baz"}
with dimension values [null, "foo", "bat"]
and replacing missing values with "oof"
will yield results of ["bar", "oof", "baz"]
.
Omitting the empty string key will cause the missing value to take over. For example, specifying {"bat":"baz"}
with dimension values [null, "foo", "bat"]
and replacing missing values with "oof"
will yield results of ["oof", "oof", "baz"]
.
Cascade Extraction Function
Provides chained execution of extraction functions.
A property of extractionFns
contains an array of any extraction functions, which is executed in the array index order.
Example for chaining regular expression extraction function, javascript extraction function, and substring extraction function is as followings.
{
"type" : "cascade",
"extractionFns": [
{
"type" : "regex",
"expr" : "/([^/]+)/",
"replaceMissingValues": false,
"replaceMissingValuesWith": null
},
{
"type" : "javascript",
"function" : "function(str) { return \"the \".concat(str) }"
},
{
"type" : "substring",
"index" : 0, "length" : 7
}
]
}
It will transform dimension values with specified extraction functions in the order named.
For example, '/druid/prod/historical'
is transformed to 'the dru'
as regular expression extraction function first transforms it to 'druid'
and then, javascript extraction function transforms it to 'the druid'
, and lastly, substring extraction function transforms it to 'the dru'
.
String Format Extraction Function
Returns the dimension value formatted according to the given format string.
{ "type" : "stringFormat", "format" : <sprintf_expression> }
For example if you want to concat "[" and "]" before and after the actual dimension value, you need to specify "[%s]" as format string.
Filtering DimensionSpecs
These are only valid for multi-valued dimensions. If you have a row in druid that has a multi-valued dimension with values ["v1", "v2", "v3"] and you send a groupBy/topN query grouping by that dimension with query filter for value "v1". In the response you will get 3 rows containing "v1", "v2" and "v3". This behavior might be unintuitive for some use cases.
It happens because query filter
is internally used on the bitmaps and only used to match the row to be included in the query result processing. With multivalued dimensions, "query filter" behaves like a contains check, which will match the row with dimension value ["v1", "v2", "v3"]. Please see the section on "Multi-value columns" in segment for more details.
Then groupBy/topN processing pipeline "explodes" all multi-valued dimensions resulting 3 rows for "v1", "v2" and "v3" each.
In addition to "query filter" which efficiently selects the rows to be processed, you can use the filtering dimension spec to filter for specific values within the values of a multi-valued dimension. These dimensionSpecs take a delegate DimensionSpec and a filtering criteria. From the "exploded" rows, only rows matching the given filtering criteria are returned in the query result.
The following filtered dimension spec acts as a whitelist or blacklist for values as per the "isWhitelist" attribute value.
{ "type" : "listFiltered", "delegate" : <dimensionSpec>, "values": <array of strings>, "isWhitelist": <optional attribute for true/false, default is true> }
Following filtered dimension spec retains only the values matching regex. Note that listFiltered
is faster than this and one should use that for whitelist or blacklist usecase.
{ "type" : "regexFiltered", "delegate" : <dimensionSpec>, "pattern": <java regex pattern> }
For more details and examples, see multi-valued dimensions.
Upper and Lower extraction functions.
Returns the dimension values as all upper case or lower case. Optionally user can specify the language to use in order to perform upper or lower transformation
{
"type" : "upper",
"locale":"fr"
}
or without setting "locale" (in this case, the current value of the default locale for this instance of the Java Virtual Machine.)
{
"type" : "lower"
}
Lookup DimensionSpecs
Lookup DimensionSpecs can be used to define directly a lookup implementation as dimension spec.
Generally speaking there is two different kind of lookups implementations.
The first kind is passed at the query time like map
implementation.
{
"type":"lookup",
"dimension":"dimensionName",
"outputName":"dimensionOutputName",
"replaceMissingValuesWith":"missing_value",
"retainMissingValue":false,
"lookup":{"type": "map", "map":{"key":"value"}, "isOneToOne":false}
}
A property of retainMissingValue
and replaceMissingValueWith
can be specified at query time to hint how to handle missing values. Setting replaceMissingValueWith
to ""
has the same effect as setting it to null
or omitting the property.
Setting retainMissingValue
to true will use the dimension's original value if it is not found in the lookup.
The default values are replaceMissingValueWith = null
and retainMissingValue = false
which causes missing values to be treated as missing.
It is illegal to set retainMissingValue = true
and also specify a replaceMissingValueWith
.
A property of injective
specifies if optimizations can be used which assume there is no combining of multiple names into one. For example: If ABC123 is the only key that maps to SomeCompany, that can be optimized since it is a unique lookup. But if both ABC123 and DEF456 BOTH map to SomeCompany, then that is NOT a unique lookup. Setting this value to true and setting retainMissingValue
to FALSE (the default) may cause undesired behavior.
A property optimize
can be supplied to allow optimization of lookup based extraction filter (by default optimize = true
).
The second kind where it is not possible to pass at query time due to their size, will be based on an external lookup table or resource that is already registered via configuration file or/and coordinator.
{
"type":"lookup"
"dimension":"dimensionName"
"outputName":"dimensionOutputName"
"name":"lookupName"
}