This is a grails plugin that provides hibernate user types to use Postgresql native types such as Array, Hstore, Json, Jsonb... from a Grails application. It also provides new criterias to query this new native types.
Currently the plugin supports array, hstore, json and jsonb fields as well as some query methods. More native types and query methods will be added in the future.
The Grails 3 version supports both Hibernate 4.X (versions 4.x.x of the plugin) and Hibernate 5.X (versions 5.x.x of the
plugin). In build.gradle
add the jcenter
repository and the following dependency to install the plugin:
repositories {
...
jcenter()
...
}
dependencies {
...
compile 'org.grails.plugins:postgresql-extensions:<version>'
...
}
You also need to install the Postgresql jdbc driver. You can see all available Postgresql jdbc libraries versions at MVN Repository.
dependencies {
...
provided 'org.postgresql:postgresql:9.4.1211.jre7'
...
}
It's also necessary to install the Grails-Hibernate plugin. Depending if you use Hibernate 4 or Hibernate 5 you'll need different dependencies. Please make sure you use the latest versions of the plugin and the hibernate dependencies
// Hibernate 4
buildscript {
...
dependencies {
...
classpath "org.grails.plugins:hibernate4:6.0.3"
}
}
dependencies {
...
compile "org.grails.plugins:hibernate4"
compile "org.hibernate:hibernate-core:4.3.11.Final"
compile "org.hibernate:hibernate-ehcache:4.3.11.Final"
...
}
// Hibernate 5
buildscript {
...
dependencies {
...
classpath "org.grails.plugins:hibernate5:6.0.3"
}
}
dependencies {
...
compile "org.grails.plugins:hibernate5"
compile "org.hibernate:hibernate-core:5.1.1.Final"
compile "org.hibernate:hibernate-ehcache:5.1.1.Final"
...
}
After install the plugin you have to use a new Postgresql Hibernate Dialect in your application. Add it to the
grails-app/conf/application.yml
file:
---
dataSource:
pooled: true
jmxExport: true
driverClassName: org.postgresql.Driver
username: user
password: password
url: jdbc:postgresql://localhost:5432/db_name
dbCreate: update
hibernate:
dialect: net.kaleidos.hibernate.PostgresqlExtensionsDialect
If you just only add the dialect, hibernate will create a new sequence for every table to generate the sequential ids used for the primary keys instead of a global sequence for all your tables.
If you're using Hibernate 4 you can also deactivate this behaviour and create only one unique sequence for all the tables with the following property in your datasource definition:
dataSource:
postgresql:
extensions:
sequence_per_table: false
}
For Hibernate 5 add the following to grails-app/conf/application.groovy
:
grails.gorm.default.mapping = {
id generator: 'org.hibernate.id.enhanced.SequenceStyleGenerator', params: [prefer_sequence_per_entity: true]
}
Please be aware that Hibernate 5 has changed the default name of the sequences so for a domain class TestMapJson
the
table name is test_map_json
and the sequence name is seq_test_map_json
in Hibernate 4 and testmapjson_seq
in
Hibernate 5.
The plugin supports the definition of Integer
, Long
, Float
, Double
, String
, and Enum
arrays in your domain
classes.
The Enum
arrays behaves almost identical to Integer
arrays in that they store and retrieve an array of ints. The
difference, however, is that this is used with an Array of Enums, rather than Ints. The Enums are serialized to their
ordinal value before persisted to the database. On retrieval, they are then converted back into their original Enum
type.
import net.kaleidos.hibernate.usertype.ArrayType
class Like {
Integer[] favoriteNumbers = []
Long[] favoriteLongNumbers = []
Float[] favoriteFloatNumbers = []
Double[] favoriteDoubleNumbers = []
String[] favoriteMovies = []
Juice[] favoriteJuices = []
UUID[] favoriteMovieUUIDs = []
static enum Juice {
ORANGE(0),
APPLE(1),
GRAPE(2)
private final int value
Juice(int value) { this.value = value }
}
static mapping = {
favoriteNumbers type:ArrayType, params: [type: Integer]
favoriteLongNumbers type:ArrayType, params: [type: Long]
favoriteFloatNumbers type:ArrayType, params: [type: Float]
favoriteDoubleNumbers type:ArrayType, params: [type: Double]
favoriteMovies type:ArrayType, params: [type: String]
favoriteJuices type:ArrayType, params: [type: Juice]
favoriteMovieUUIDs type:ArrayType, params: [type: UUID]
}
}
Now you can create domain objects using lists (or arrays) of integers, longs and strings and when you save the object it will be stored as an postgresql array:
def myLikes = new Like(favoriteNumbers: [5, 17, 9, 6],
favoriteLongNumbers: [123, 239, 3498239, 2344235],
favoriteFloatNumbers: [0.3f, 0.1f],
favoriteDoubleNumbers: [100.33d, 44.11d],
favoriteMovies: ["Spiderman", "Blade Runner", "Starwars"],
favoriteJuices: [Like.Juice.ORANGE, Like.Juice.GRAPE])
myLikes.save()
And now, with psql
:
=# select * from like;
id | favorite_long_numbers | favorite_float_numbers | favorite_double_numbers | favorite_movies | favorite_numbers | favorite_juices
----+---------------------------+---------------------------+---------------------------+----------------------------------------+------------------+----------------
1 | {123,239,3498239,2344235} | {0.3,0.1} | {100.33,44.11} | {Spiderman,"Blade Runner",Starwars} | {5,17,9,6} | {0,2}
The plugin also includes some hibernate criterias to use in your queries. Please check the services and the tests created to see all usage examples.
You can also check the official Postgresql Array operators.
With this criteria you can get all the rows that contain all the values in the array field. To use it just use the new
criteria pgArrayContains
:
// number can be just a value...
def number = 3
def result = Like.withCriteria {
pgArrayContains 'favoriteNumbers', number
}
// ...or a list
def numbers = [5, 17]
def result = Like.withCriteria {
pgArrayContains 'favoriteNumbers', numbers
}
// If using enums, pass the enum right through
def juices = Like.Juice.ORANGE
def result = Like.withCriteria {
pgArrayContains 'favoriteJuices', juices
}
With this criteria you can get all the rows that are contained by the values. To use it just use the new criteria
pgArrayIsContainedBy
:
// movie can be just a string or a list
def movie = "Starwars" // or movie = ["Starwars"]
def result = Like.withCriteria {
pgArrayIsContainedBy 'favoriteMovies', movie
}
// The plugin also support joins
def movies = ["Starwars", "Matrix"]
def results = User.withCriteria {
like {
pgArrayIsContainedBy 'favoriteMovies', movies
}
}
With this criteria you can get all the rows that contains any of the values. To use it just use the new criteria
pgArrayOverlaps
:
def result = Like.withCriteria {
pgArrayOverlaps 'favoriteNumbers', numbers
}
With this criteria you can get all the rows that contains an-empty array in the selected field. To use it just use the
new criteria pgArrayIsEmpty
:
def result = Like.withCriteria {
pgArrayIsEmpty 'favoriteMovies'
}
With this criteria you can get all the rows that contains a not empty array in the selected field. To use it just use
the new criteria pgArrayIsNotEmpty
:
def result = Like.withCriteria {
pgArrayIsNotEmpty 'favoriteMovies'
}
This criteria is a mix of the pgContains
and pgIsEmpty
. Sometimes you have to execute 'pgContains' criteria if the
list has elements or a 'pgIsEmpty' if the list is empty. It could be something like this:
def numbers = ... // A list with zero or more elements
def result = Like.withCriteria {
if (numbers) {
pgArrayContains 'favoriteNumbers', numbers
} else {
pgArrayIsEmpty 'favoriteMovies'
}
}
With pgIsEmptyOrContains
you can write the previous code as follows:
def numbers = ... // A list with zero or more elements
def result = Like.withCriteria {
pgArrayIsEmptyOrContains 'favoriteNumbers', numbers
}
With this criteria you can get all the rows that are equal to a value. To use it just use the new criteria pgArrayEquals
:
def result = Like.withCriteria {
pgArrayEquals 'favoriteNumbers', numbers
}
With this criteria you can get all the rows that are not equal to a value. To use it just use the new criteria
pgArrayNotEquals
:
def result = Like.withCriteria {
pgArrayNotEquals 'favoriteNumbers', numbers
}
With this criteria you can get all the rows that are ilike to a value. To use it just use the new criteria pgArrayILike
.
It only can be used on arrays of string.
It uses the ilike syntaxis, so you can do for example:
def result = Like.withCriteria {
pgArrayILike 'favoriteMovies', "%tarwar%"
}
The first thing you need to do is install hstore support in Postgresql. In Debian/Ubuntu you have to install the
postgresql-contrib
package:
sudo apt-get install postgresql-contrib-9.4
Once the package is installed in the system you have to create the extension in the database you want to use hstore into:
CREATE EXTENSION hstore;
You can test that the hstore extension is correctly installed running:
=# SELECT 'foo=>bar, xxx=>yyy'::hstore;
hstore
----------------------------
"foo"=>"bar", "xxx"=>"yyy"
(1 row)
You only have to define the domain class with a Map
attribute and use the Hibernate user type HstoreMapType
.
import net.kaleidos.hibernate.usertype.HstoreMapType
class TestHstore {
Map testAttributes
String anotherProperty
static mapping = {
testAttributes type: HstoreMapType
}
}
Now you can create and instance of the domain class. Due to a limitation of the Hstore Postgresql type you can only store Strings as key and value.
def instance = new TestHstore(testAttributes: [foo: "bar"], anotherProperty: "Groovy Rocks!")
instance.save()
def instance2 = new TestHstore(testAttributes: [xxx: 1, zzz: 123], anotherProperty: "")
instance2.save()
=# select * from test_hstore;
id | version | another_property | test_attributes
----+---------+------------------+-----------------
1 | 0 | Groovy Rocks! | "foo"=>"bar"
2 | 0 | | "xxx"=>"1", "zzz"=>"123"
The following criteria operations are available to query rows using the Hstore custom type. You can check the services and the tests created to see all usage examples.
You can also check the official Postgresql Hstore operators.
With this operation you can search for rows that contain an Hstore with the key passed as parameter.
def wantedKey = "my-custom-key"
def result = MyDomain.withCriteria {
pgHstoreContainsKey "attributes", wantedKey
}
You can search for data that contains certain pairs of key and value.
def result = Users.withCriteria {
pgHstoreContains 'configuration', ["language": "es"]
}
The operation is contained can be used when looking for rows that has all the elements in the map passed as parameter.
def result = TestHstore.withCriteria {
pgHstoreIsContained 'testAttributes', ["1": "a", "2": "b"]
}
The example above returns the rows that contains elements like:
testAttributes = ["1": "a"]
testAttributes = ["2": "b"]
testAttributes = ["1": "a", "2": "b"]
This criteria can also be used to look for exact matches.
With this operation you can search for rows that contain an Hstore in which any value matches (ilike) to the parameter. It uses the ilike syntaxis, so you can do for example:
def wantedValue = "%my-value%"
def result = MyDomain.withCriteria {
pgHstoreILikeValue "attributes", wantedKey
}
To define a json field you only have to define a Map
field and use the JsonMapType
hibernate user type.
import net.kaleidos.hibernate.usertype.JsonMapType
class TestMapJson {
Map data
static constraints = {
}
static mapping = {
data type: JsonMapType
}
}
Now you can create and instance of the domain class:
def instance = new TestMapJson(data: [name: "Iván", age: 35, hasChilds: true, childs: [[name: 'Judith', age: 8], [name: 'Adriana', age: 5]]])
instance.save()
=# select * from test_map_json;
id | version | data
----+---------+-------------------------------------------------------------------------------------------------------------
1 | 0 | {"hasChilds":true,"age":35,"name":"Iván","childs":[{"name":"Judith","age":8},{"name":"Adriana","age":5}]}
As you can see the plugin converts to Json automatically the attributes and the lists in the map type.
The plugin provides some criterias to query json fields. You can check the official Postgresql Json functions and operators in case you need additional ones.
With this criteria you can check if a json field contains some value in some key. To use it just use the criteria
pgJsonHasFieldValue
:
def obj1 = new TestMapJson(data: [name: 'Iván', lastName: 'López']).save(flush: true)
def obj2 = new TestMapJson(data: [name: 'Alonso', lastName: 'Torres']).save(flush: true)
def obj3 = new TestMapJson(data: [name: 'Iván', lastName: 'Pérez']).save(flush: true)
def result = TestMapJson.withCriteria {
pgJsonHasFieldValue 'data', 'name', 'Iván'
}
The previous criteria will return all the rows that have a name
attribute in the json field data
with the value
Iván
. In this example obj1
and obj3
.
With this criterion you can use more operators using a syntax close to the one described in Postgresql documentation.
To use it just use pgJson
:
def obj1 = new TestMapJson(data: [name: 'Iván', lastName: 'López', other: [followersCount: 150]]).save(flush: true)
def obj2 = new TestMapJson(data: [name: 'Alonso', lastName: 'Torres', other: [followersCount: 148]]).save(flush: true)
def obj3 = new TestMapJson(data: [name: 'Iván', lastName: 'Pérez', other: [followersCount: 149]]).save(flush: true)
def result1 = TestMapJson.withCriteria {
pgJson 'data', '->>', 'name', 'ilike', '%iv%'
}
The previous query will return all the rows that have a name
attribute in the json field data
containing iv
(case insensitive). In this example obj1
and obj3
.
def result2 = TestMapJson.withCriteria {
pgJson 'data', '#>>', '{other, followersCount}', '>', 149
}
The previous query will return all the rows that have an other
value whose followersCount
value is greater than
149
. In this example obj1
.
Since postgresql-extensions version 4.4.0 it is possible to use Postgresql Jsonb instead of just json. You need to use at least Postgresql 9.4.
To define a jsonb field you only have to define a Map
field and use the JsonbMapType
hibernate user type.
import net.kaleidos.hibernate.usertype.JsonbMapType
class TestMapJsonb {
Map data
static constraints = {
}
static mapping = {
data type: JsonbMapType
}
}
The same criterias implemented for Json are valid for Jsonb. Besides that, there are some criterias that are only valid for Jsonb. Check the documentation.
With this criteria you can get all the rows that contain all the values in the map. To use it just use the criteria
pgJsonContains
:
def obj1 = new TestMapJsonb(data: [a: 'foo', b: '1']).save(flush: true)
def obj2 = new TestMapJsonb(data: [b: 1, d: '2']).save(flush: true)
def obj3 = new TestMapJsonb(data: [a: 'foo', b: '1', c: 'test',]).save(flush: true)
def result = TestMapJsonb.withCriteria {
pgJsonbContains data, [a: 'foo', b: '1']
}
The previous criteria will return all the rows that contains all the keys/values ([a: 'foo', b: '1']
in the example)
in the data
field. In this example will return obj1
and obj3
.
With this criteria you can get all the rows that are contained by the values. To use it just use the criteria
pgArrayIsContainedBy
:
def obj1 = new TestMapJsonb(data: [a: 'foo', b: '1']).save(flush: true)
def obj2 = new TestMapJsonb(data: [b: 1, d: '2']).save(flush: true)
def obj3 = new TestMapJsonb(data: [b: '1', a: 'foo', c: 'test',]).save(flush: true)
def result = TestMapJsonb.withCriteria {
pgJsonbIsContained data, [a: 'foo', b: '1', c: 'test']
}
The previous criteria will return all the rows that are contained in the map. In the example it will retun the objects
obj1
and obj3
.
Sometimes you need to get some results ordered randomly from the database. Postgres provides a native function to do that. So you can write something like this:
select * from foo order by random();
The plugin now offers a new order method to do this random sorting:
import static net.kaleidos.hibernate.order.OrderByRandom.byRandom
class MyService {
List<TestMapJsonb> orderByRandom() {
return TestMapJsonb.withCriteria {
order byRandom()
}
}
}
You may need to do a more complex sorting. Imagine that you have a table with a jsonb
column and you want to order
by a field in that json. Using sql you can write:
select * from foo order by (data->'name') desc
With the plugin you can do the same with a new order method called sqlFormula
:
import static net.kaleidos.hibernate.order.OrderBySqlFormula.sqlFormula
class MyService {
List<TestMapJsonb> orderByJson() {
return TestMapJsonb.withCriteria {
order sqlFormula("(data->'name') desc")
}
}
}
It's important to note that the "raw" sql is appended to the criteria, so you need to be sure that it's valid because if not you'll get a sql error during runtime.
You can send any questions to:
- Iván López: lopez.ivan@gmail.com (@ilopmar)
- Alonso Torres: alonso.javier.torres@gmail.com (@alotor)
Collaborations are appreciated :-)
Version | Date | Comments |
---|---|---|
7.0.0 | 29/Jul/2019 | Grails 4 (Hibernate 5.4): Add support for Grails 4 and Hibernate 5.4. Thanks to James Hardwick and Zhuravskiy Vitaliy. |
6.1.0 | 24/Sep/2018 | Grails 3 (Hibernate 5.2): Fix #30. Thanks to John Keith and jglapa. |
5.3.0 | 24/Sep/2018 | Grails 3 (Hibernate 5): Fix #30. Thanks to John Keith and jglapa. |
4.8.0 | 24/Sep/2018 | Grails 3 (Hibernate 4): Fix #30. Thanks to John Keith and jglapa. |
6.0.0 | 05/Jun/2018 | Grails 3: Add support for Hibernate 5.2. #114. Thanks to Alexey Zhokhov and Feng Yu. |
5.2.0 | 03/Nov/2017 | Grails 3 (Hibernate 5): Merged #107 and #109. |
5.1.0 | 22/May/2017 | Grails 3 (Hibernate 5): Change db credentials to make it compatible with Postgresql 9.6. |
4.7.0 | 22/May/2017 | Grails 3 (Hibernate 4): Change db credentials to make it compatible with Postgresql 9.6. |
5.0.1 | 21/May/2017 | Grails 3 (Hibernate 5): Fix #96. Thanks to jglapa. |
4.6.9 | 21/May/2017 | Grails 3 (Hibernate 4): Fix #96. Thanks to jglapa. |
5.0.0 | 07/Nov/2016 | Grails 3: Add support for Hibernate 5.1. Upgrade dialect to Postgresql 9.4, Grails to 3.2.2 and GORM to 6.0.3. |
4.6.8 | 03/Nov/2016 | Grails 3: Add support for generic Json/Jsonb criteria #95. Thanks to Sabst. |
4.6.7 | 01/Nov/2016 | Grails 3: Add UUID arrays. Thanks to Tom Potts. Fix #87 |
5.0.0-RC1 | 28/Oct/2016 | Grails 3: Add support for Hibernate 5. Thanks to Alexey Zhokhov and Eric Helgeson. |
4.6.6 | 24/Apr/2016 | Grails 3: Migrate (almost) all Java code to Groovy + @CompileStatic. No new features added. |
4.6.5 | 31/Dec/2015 | Grails 3: Fix #84. Starting Grails 3.0.10 the default sequence_per_table parameter was not working. |
4.6.4 | 29/Dec/2015 | Grails 3: Cleanup and new jar file with the same functionality as previous version. It seems that version 4.6.3 is corrupted. |
4.6.3 | 08/Dec/2015 | Grails 3: Add new criterias for Jsonb: contains and isContained. |
4.6.2 | 05/Dec/2015 | Grails 3: Cleanup old code for support Hstore in old Grails versions. |
4.6.1 | 02/0ct/2015 | Plugin migrated to Grails 3. |
4.6.1 | 21/Sep/2015 | Hibernate 4.x. Fix #76. |
4.6.0 | 08/Sep/2015 | Hibernate 4.x. Add support to order by a sql formula and by random. Fix #72. |
4.5.0 | 02/Jun/2015 | Hibernate 4.x. GR8Conf Hackergarten! Merge PRs: #62, #66, #67, #68, #69. |
3.4.0 | 02/Jun/2015 | Hibernate 3.x. GR8Conf Hackergarten! Add Jsonb support for Hibernate 3.x #64. |
4.4.0 | 15/Mar/2015 | Hibernate 4.x. Add support for Jsonb. |
3.3.0 | 18/Aug/2014 | Hibernate 3.x. Fix #49. Configure sequence per table or a global sequence for all tables. |
4.3.0 | 17/Aug/2014 | Hibernate 4.x. Fix #49. Configure sequence per table or a global sequence for all tables. |
3.2.0 | 02/Aug/2014 | Hibernate 3.x. pgJsonHasFieldValue criteria. |
4.2.0 | 28/Jul/2014 | Hibernate 4.x. pgJsonHasFieldValue criteria. |
3.1.0 | 25/Jul/2014 | Add JSON support for Hibernate 3.x. It's now possible to store and read domain classes with map types persisted to json. |
4.1.0 | 24/Jul/2014 | Add JSON support. It's now possible to store and read domain classes with map types persisted to json. |
4.0.0 | 18/Jul/2014 | Version compatible with Hibernate 4.x. |
3.0.0 | 18/Jul/2014 | Version compatible with Hibernate 3.x. |
0.9 | 16/Jun/2014 | Add new array criterias: pgArrayEquals, pgArrayNotEquals. |
0.8.1 | 24/Apr/2014 | Fix NPE when array is null. |
0.8 | 24/Apr/2014 | Added support for Double and Float arrays. Refactored the ArrayType to be used as a parametrized type. |
0.7 | Unreleased | New HstoreMapType and update plugin to Grails 2.2.5. |
0.6.8 | 22/Apr/2014 | Fix NPE in HstoreType. |
0.6.7 | 14/Feb/2014 | Support Java Arrays in criterias. |
0.6.6 | 14/Feb/2014 | New criteria pgArrayIsEmptyOrContains. |
0.6.5 | 13/Feb/2014 | Fix bug deleting instances with Hstore type. Thanks to Manuel Unno Vio! |
0.6.4 | 30/Jan/2014 | Convert automatically the keys of Hstore to string. |
0.6.3 | 19/Jan/2014 | Display the class name during startup when detecting a hstore property. |
0.6.2 | Unreleased | Refactor some tests. |
0.6.1 | 28/Nov/2013 | Update postgresql jdbc driver to version 9.2 and do not export hibernate plugin. |
0.6 | 21/Nov/2013 | Use a more complete Hstore parser. Thanks to Moritz Kobel! |
0.5.1 | 10/Nov/2013 | Change base directory to compile AST before the plugin classes. Thanks to Moritz Kobel! |
0.5 | 08/Nov/2013 | Add criteria operation for Hstore types. |
0.4.1 | Unreleased | Compile AST before the project itself. |
0.4 | 28/Oct/2013 | Add support to Hstore. It's only possible to save and get, but no queries has been implemented. |
0.3 | 18/Sep/2013 | Add support to define the schema name for the sequences. |
0.2 | 25/Aug/2013 | Support for arrays of Enums with automatic serialization/deserialization to ordinal integer value. Thanks to Matt Feury! |
0.1.1 | 22/Jul/2013 | Some refactors of the code. No functionality added. |
0.1 | 16/Jul/2013 | Initial version of the plugin with support for integer, long and string array types and criterias pgArrayContains, pgArrayIsContainedBy, pgArrayOverlaps, pgArrayIsEmpty and pgArrayIsNotEmpty. |