Difference between revisions of "Entity DSL"
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== Purpose == | == Purpose == | ||
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* "Annotations" can be placed on Entity, Property and Reference. | * "Annotations" can be placed on Entity, Property and Reference. | ||
− | * "Comments" can be added to all elements. | + | * "Comments" can be added to all elements. |
− | + | ||
== Entity model files == | == Entity model files == | ||
Line 48: | Line 45: | ||
datatype datatypeDefinition; | datatype datatypeDefinition; | ||
entities/beans/enums | entities/beans/enums | ||
− | } | + | } |
</syntaxhighlight> | </syntaxhighlight> | ||
Line 305: | Line 302: | ||
{{Deprecated}} | {{Deprecated}} | ||
− | '''id''' defines an ID property (used as a primary key by the JPA compiler). '''This keyword is deprecated'''. If no <code>id</code> is specified, a warning is given. | + | '''id''' defines an ID property (used as a primary key by the JPA compiler). '''This keyword is deprecated - use uuid instead'''. If no <code>id</code> is specified, a warning is given. |
'''Caution''': ID autogeneration causes problems, since the value is not set before the entity is persisted, e.g., in the database. It is therefore advised to use the <code>uuid</code> keyword instead. | '''Caution''': ID autogeneration causes problems, since the value is not set before the entity is persisted, e.g., in the database. It is therefore advised to use the <code>uuid</code> keyword instead. | ||
− | [[File:Entity-24.png|center|frame|''Figure 24: Entities are supposed to have an ID property that is used as a primary key | + | [[File:Entity-24.png|center|frame|''Figure 24: Entities are supposed to have an ID property that is used as a primary key to the underlying database.'']] |
'''Caution''': The generated IDs are not necessarily unique if the deprecated <code>id</code> keyword is used! | '''Caution''': The generated IDs are not necessarily unique if the deprecated <code>id</code> keyword is used! | ||
Line 316: | Line 313: | ||
===index=== | ===index=== | ||
<blockquote> | <blockquote> | ||
− | + | The <code>index</code> keyword causes an index for the table to be generated. Indexes may be based on one or more properties (primitive only) and references (one-to-one only) of the entity. An index must be given a name and, in braces, a list of the fields it is based upon. If the <code>index</code> keyword is prefixed with <code>unique</code>, a unique index is created. | |
− | [[File:Entity-25.png|center|frame|''Figure 25: | + | [[File:Entity-25.png|center|frame|''Figure 25: Database table indexes that map entities are generated with the <code>index</code> keyword.'']] |
The <code>@Table</code> annotation is supplemented with the index definition. | The <code>@Table</code> annotation is supplemented with the index definition. | ||
Line 328: | Line 325: | ||
Features (properties and references) of entities and beans can optionally be given additional information in the form of key-value pairs. This information can then be retrieved from the semantic model. The key-value pairs are defined in parentheses after the properties keyword following the feature name. Multiple pairs can be defined (comma-separated). | Features (properties and references) of entities and beans can optionally be given additional information in the form of key-value pairs. This information can then be retrieved from the semantic model. The key-value pairs are defined in parentheses after the properties keyword following the feature name. Multiple pairs can be defined (comma-separated). | ||
− | [[File:Entity-26.png|center|frame|''Figure 26: Additional information about features can be defined by key-value pairs. This information is then stored in the semantic model.'']] | + | [[File:Entity-26.png|center|frame|''Figure 26: Additional information about features can be defined by key-value pairs. This information is then stored in the semantic model and is retrievable.'']] |
</blockquote> | </blockquote> | ||
Line 334: | Line 331: | ||
===uuid=== | ===uuid=== | ||
<blockquote> | <blockquote> | ||
− | + | <code>uuid</code> allows the use of Universally Unique IDs as primary keys. A new UUID value is generated for each object as soon as that object has been created, independently of database operations. This circumvents the problems with the <code>id</code> keyword. UUIDs have to be of type <code>String</code>. | |
− | [[File:Entity-27.png|center|frame|''Figure 27: By using the uuid keyword, entities are created with a reliably unique identifier.'']] | + | [[File:Entity-27.png|center|frame|''Figure 27: By using the <code>uuid</code> keyword, entities are created with a reliably unique identifier.'']] |
</blockquote> | </blockquote> | ||
Line 342: | Line 339: | ||
===version=== | ===version=== | ||
<blockquote> | <blockquote> | ||
− | + | <code>version</code> defines a version-property (used by the JPA-Compiler). | |
− | [[File:Entity-28.png|center|frame|''Figure 28: A version property can be added to entities and beans.'']] | + | [[File:Entity-28.png|center|frame|''Figure 28: A <code>version</code> property can be added to entities and beans.'']] |
</blockquote> | </blockquote> | ||
Line 350: | Line 347: | ||
===transient=== | ===transient=== | ||
<blockquote> | <blockquote> | ||
− | + | <code>transient</code> marks the property as transient. Instead of a <code>@Column</code>, a <code>@Transient</code> annotation is generated, so that the property is not persisted in the database. | |
− | [[File:Entity-29.png|center|frame|''Figure 29: The transient keyword | + | [[File:Entity-29.png|center|frame|''Figure 29: The <code>transient</code> keyword enables the exclusion of properties from persistence.'']] |
</blockquote> | </blockquote> | ||
Line 358: | Line 355: | ||
==References== | ==References== | ||
− | The Entity DSL tracks relationships between entities by using the concept of references. References can exist between objects of the same nature (entities to entities, beans to beans). Where appropriate, back references ("opposite") are added. | + | The Entity DSL tracks relationships between entities by using the concept of "references". References can exist between objects of the same nature (entities to entities, beans to beans). Where appropriate, back references ("opposite") are added. |
− | References are defined by the ref keyword, a type and a name. The exact type of reference can be specified with the following modifiers: | + | References are defined by the <code>ref</code> keyword, a target, an optional type and a name. The exact type of the reference can be specified with the following modifiers: |
===Multiplicity and nullability=== | ===Multiplicity and nullability=== | ||
<blockquote> | <blockquote> | ||
The Entity DSL supports the specification of multiplicities in square brackets appended to the type: | The Entity DSL supports the specification of multiplicities in square brackets appended to the type: | ||
− | * <code>[1]</code> defines a non-nullable one-to-one relationship. | + | * <code>[1]</code> defines a non-nullable, one-to-one relationship. |
− | * <code>[0..1]</code> defines a nullable one-to-one relationship ( | + | * <code>[0..1]</code> defines a nullable, one-to-one relationship (this is the default behavior). |
− | * <code>[1..*]</code> defines a non-nullable one-to-many relationship. | + | * <code>[1..*]</code> defines a non-nullable, one-to-many relationship. An <code>opposite</code> reference is needed. |
− | * <code>[0..*]</code> or simply <code>[*]</code> defines a nullable one-to-many relationship. | + | * <code>[0..*]</code> or simply <code>[*]</code> defines a nullable, one-to-many relationship. An <code>opposite</code> reference is needed. |
− | [[File:Entity-30.png|center|frame|''Figure 30: Adding multiplicity | + | [[File:Entity-30.png|center|frame|''Figure 30: Adding multiplicity "[1]" causes the annotations for non-nullable database entries to be set.'']] |
</blockquote> | </blockquote> | ||
− | |||
===opposite reference=== | ===opposite reference=== | ||
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Lifecycle references need the specification of an opposite reference. This can be done with the <code>opposite</code> keyword. | Lifecycle references need the specification of an opposite reference. This can be done with the <code>opposite</code> keyword. | ||
− | Using the opposite reference, it is possible to navigate back to the original object after following the reference. | + | Using the <code>opposite</code> reference, it is possible to navigate back to the original object after following the reference. |
</blockquote> | </blockquote> | ||
− | |||
===cascade=== | ===cascade=== | ||
<blockquote> | <blockquote> | ||
− | The <code>cascade</code> specifier controls the | + | The <code>cascade</code> specifier controls the behavior of the database on delete operations. If an object with a <code>cascade</code> reference to other objects is deleted, those other objects will be removed as well. |
[[File:Entity-31.png|center|frame|''Figure 31: By using the <code>cascade</code> and <code>opposite</code> keywords, bidirectional associations can be achieved.'']] | [[File:Entity-31.png|center|frame|''Figure 31: By using the <code>cascade</code> and <code>opposite</code> keywords, bidirectional associations can be achieved.'']] | ||
</blockquote> | </blockquote> | ||
− | |||
==Operations== | ==Operations== | ||
− | Operations are other important features. They are based on Xbase and offer a huge set of semantic features, extending the featureset of Java. Xbase additionally offers features | + | Operations are other important features. They are based on Xbase and offer a huge set of semantic features, extending the featureset of Java. Xbase additionally offers features such as closures. |
− | Operations can be declared by the def keyword followed by braces containing the | + | Operations can be declared by the <code>def</code> keyword followed by braces containing the inline operation. |
− | [[File:Entity-32.png|center|frame|''Figure 32: The def keyword allows the inlining of custom methods in the Entity DSL code.'']] | + | [[File:Entity-32.png|center|frame|''Figure 32: The <code>def</code> keyword allows the inlining of custom methods in the Entity DSL code.'']] |
− | These methods are translated | + | These methods are translated into the appropriate Java methods along with the automatically generated getter and setter methods. |
+ | |||
+ | Operations can be combined with the Annotations @PrePersist,@PreUpdate, etc. They will be executed when the entity is persisted, updated, etc. | ||
+ | More details can be found [https://en.wikibooks.org/wiki/Java_Persistence/Advanced_Topics#Events here] | ||
+ | |||
+ | It is possible to use the same annotation multiple times, they will be executed one after the ofter. | ||
+ | The @PostPersist and @PostUpdate operations will be executed in an asynchronos way to unblock the userinterface. This may lead to a delay in execution, if there are many requests at a time. | ||
==Annotations== | ==Annotations== | ||
Line 408: | Line 408: | ||
[[File:Entity-33.png|center|frame|''Figure 33: Annotating elements in the Compex Entity DSL causes an annotation to be inserted into the generated Java code.'']] | [[File:Entity-33.png|center|frame|''Figure 33: Annotating elements in the Compex Entity DSL causes an annotation to be inserted into the generated Java code.'']] | ||
− | These methods are translated | + | These methods are translated into the appropriate Java methods along with the automatically generated getter and setter methods. |
==Comments== | ==Comments== | ||
− | Comments can be added anywhere in an entitymodel text file and are copied over into the generated Java code. Comments are enclosed in <code>/* ... */</code>. | + | Comments can be added anywhere in an .entitymodel text file and are copied over into the generated Java code. Comments are enclosed in <code>/* ... */</code>. |
[[File:Entity-34.png|center|frame|''Figure 34: The comments added in the Entity DSL are transformed to Java-style comments in the generated code.'']] | [[File:Entity-34.png|center|frame|''Figure 34: The comments added in the Entity DSL are transformed to Java-style comments in the generated code.'']] | ||
Line 419: | Line 419: | ||
[[File:Entity-35.png|center|frame|''Figure 35: A comment before the package keyword ends up in all generated Java classes.'']] | [[File:Entity-35.png|center|frame|''Figure 35: A comment before the package keyword ends up in all generated Java classes.'']] | ||
− | |||
==Reserved Keywords== | ==Reserved Keywords== | ||
Line 427: | Line 426: | ||
In order to circumvent this, it is possible to escape them with the <code>^</code> character. During the generation of the Java code, this escape character is removed. | In order to circumvent this, it is possible to escape them with the <code>^</code> character. During the generation of the Java code, this escape character is removed. | ||
− | [[File:Entity-36.png|center|frame|''Figure 36: Using the escape character ^, it is possible to achieve an identifier in the generated Java code with a name that would be a reserved word in the Entity DSL. In this case, a variable | + | [[File:Entity-36.png|center|frame|''Figure 36: Using the escape character '^', it is possible to achieve an identifier in the generated Java code with a name that would be a reserved word in the Entity DSL. In this case, a variable named <code>uuid</code> is generated that cannot be specified in the entity model file.'']] |
+ | |||
+ | |||
+ | Please note that you are '''not allowed to use identifiers corresponding to reserved keywords''' of the supported databases you can find here below: | ||
+ | |||
+ | [https://db.apache.org/derby/docs/10.2/ref/rrefkeywords29722.html Derby] | ||
+ | |||
+ | [http://www.h2database.com/html/advanced.html?highlight=reserved&search=reser#firstFound H2] | ||
+ | |||
+ | [https://docs.microsoft.com/en-us/sql/odbc/reference/appendixes/reserved-keywords?view=sql-server-2017 MS SQL] | ||
+ | |||
+ | [https://docs.oracle.com/database/121/SQLRF/ap_keywd001.htm#SQLRF55621 Oracle] | ||
+ | |||
+ | [https://dev.mysql.com/doc/refman/8.0/en/keywords.html MySQL] | ||
+ | |||
+ | [https://www.postgresql.org/docs/8.2/sql-keywords-appendix.html PostgreSQL] | ||
+ | |||
+ | == Copyright Notice == | ||
+ | {{Copyright Notice}} |
Latest revision as of 16:01, 7 November 2023
Contents
Purpose
The Entity DSL facilitates the handling of persistence entities. Defining entities using the Entity DSL efficiently creates a clean entity model that contains all relevant semantic elements of the model text file. This semantic model is used to automatically transform the semantic information into proper Java code with the respective annotations for a persistence provider. Additionally, if the entity model is located within a project with OSBP nature, "Auto-DTOs" and services are generated as well. In this case, attributes that are added to entities will automatically be transferred to the "Auto-DTOs".
Overview
The main semantic elements of the Compex Entity DSL are the following:
- "Package" - the root element that contains all the other elements. A model can contain multiple packages.
- "Import" declarations - used to import external models or even Java classes.
- "Datatype" declarations - a way to define datatypes that can be used in entities and beans.
- "Entity" - the abstraction of a business model entity. It contains further elements such as properties and references.
- "Bean" - does not compile to a JPA Entity but to a Java Bean (POJO with getter and setter and PropertyChange-Support). Beans may be used as temporary containers in entity operations or can be embedded into JPA Entities.
- "Enum" - the abstraction for Java enums.
- "Property" - a reference to an embedded Bean, an Enum, a Java class or a simple datatype (as defined in the datatype declaration). Offers multiplicity.
- "Reference" - a reference to another Entity (or to another Bean in the case of a Bean). Offers multiplicity.
- "Operations" - similar to Java methods. The Xbase expression language can be used to write high-level code.
- "Annotations" can be placed on Entity, Property and Reference.
- "Comments" can be added to all elements.
Entity model files
Entity models are described in .entitymodel files. These files describe the entity model and are the basis for the code generation. Entity models may be split over several .entitymodel files containing packages in the same namespace. An .entitymodel file may contain several packages with entities. However, from a performance point of view, a complex entity model may work better with more and smaller .entitymodel files than the same model crammed into a few large files (or even a single file).
package
Entity model files must start with a package declaration. Packages are the root element of the Entity DSL grammar. Everything is contained in a package: Imports, Entities, Beans and Enums have to be defined inside the Package definition. One document can contain multiple packages with unique names. The elements a package can contain are Entities, Beans and Enums. Additionally, a package allows Import statements and the declaration of datatypes.
package name {
import importStatement;
datatype datatypeDefinition;
entities/beans/enums
}
Marking a DTO as abstract (before the dto keyword) generates an abstract Java class for it.
The following modifiers may be placed after the dto keyword and the DTO name:
import
The Entity DSL allows the referencing of entities defined in different packages, even in different .entitymodel files. The import statement is a way to make these elements available in the current namespace without having to address them by their fully qualified name.
Import statements allow the use of the '*' wildcard.
import importStatement;
datatype
The Entity DSL allows the definition of datatypes. These are translated by the inferrer into their standard Java representation. The behavior of the generator can be controlled by the datatype definitions. Datatypes defined in an .entitymodel file are local to that file. In order to define datatypes in one place and have them available in multiple .entitymodel files, the datatypes may be defined in a ".datatypes" file containing only datatype definitions inside a package statement. There are three types of datatype definitions:
- jvmTypes: Datatype definitons that map types to jvmTypes take the basic syntax of
datatype <name> jvmType <type> as primitive;
.
Specifying datatypes in this manner uses an appropriate wrapper class in the generated Java code; adding the keywordsas primitive
enforces the use of primitive datatypes where applicable:
datatype foo jvmType Integer;
compiles to anInteger
whereasdatatype foo jvmType Integer as primitive;
results inint
.
- dateTypes: The datatypes for handling temporal information can be defined by the following statement:
datatype <name> datetype date—time—timestamp;
Datatypes that have been defined in this manner can be used as property variables in entities and beans.
- blobs: Binary blobs can be handled by defining a datatype with the
as blob
keywords. The Java implementation of such a blob is a byte array. Appropriate persistence annotations are automatically added.
datatype <name> as blob;
After import statements and datatype definitions, the content of the .entitymodel file is made up of entity
, bean
and enum
definitions.
Entities
Entities are the most complex elements in the Entity DSL. An entity is an abstraction above a business object. Entities are defined by their name, properties, references and operations. Generally, an entity is an object which can keep the state of variables and references as well as be persisted. For each entity that is defined in a package, a Java class and the corresponding persistence structure is automatically generated. Inside a project with Compex nature, "Auto-DTOs" and services are created as well.
Entities may extend other entities. In this case, they are derived from their parent entity. That means that the properties and references of the parent entity are inherited.
Syntax:
[modifiers] entity <name> extends <parentEntity> {
[entityProperties]
}
Entities may be defined with certain modifiers that change the generated Java Code. The following modifiers are supported:
abstract
abstract
marks the entity as "abstract". This generates an abstract Java class.
historized
historized
marks the entity as "historized". Historized entities can have several entries in a database, but only one of them may be marked as current.The
historized
keyword adds an object ID, a version field and a flag for the current version to the entity.
cacheable
cacheable
marks the entity as "cacheable". The appropriate annotation for the persistence provider is added to the generated Java code.
timedependent
timedependent
marks the entity as "time-dependent". An object may have several entries in the database. Which entry is valid will be determined by valid from and valid until fields that are added to the entity. An object ID is created in order to tie the entries together. Thetimedependent
keyword recognizes the modifiers(DATE)
and(TIMESTAMP)
. Default istimedependent(DATE)
.
mapped superclass
mapped superclass
marks a class that provides persistent entity state and mapping information for its subclasses, but which is not an entity itself.Typically, the purpose of a mapped superclass is to define state and mapping information that is common to multiple entities. All the mappings from the mapped superclass are inherited by its subclasses, as if they had been defined there directly.
extends
The modifier
extends
may be placed after the entity keyword and the entity name, asentity foo extends bar {
, wherebar
has already been defined as an entity.
extends
marks an entity that is derived from another entity. That means that the properties and references of the parent entity are inherited.
Entity Persistence Settings
Apart from the mapped superclass modifier that moves all property columns to the tables belonging to derived classes, the following settings for table inheritance can be specified within an entity definition:
- inheritance per class
- inheritance per subclass
The structure of the database created from an entity model can be controlled by the following settings:
- schemaName
- tableName
- discriminatorColumn
- discriminatorType
- discriminatorValue
inheritance per class
inheritance per class{}
causes a table to be created for each class; subclasses share this table using a discriminator value. This statement has to be followed by braces, inside of which further details can be specified.
inheritance per subclass
inheritance per subclass{}
causes a table to be created for each subclass. This statement has to be followed by braces, inside of which further details can be specified. This is the default behaviour if no inheritance strategy is specified.
schemaName
schemaName
allows the specification of a name for the database schema to be used. This setting is translated to the appropriate JPA annotation@Table(schema = <xyz>)
. The schema name given is converted to snake case using capitals.
tableName
tableName
allows the specification of a name for the table (within the database schema) to which the entity is mapped. This setting is translated to the appropriate JPA annotation@Table(name = <xyz>)
.The table name specified is converted to snake case using capitals. The default value is the name of the entity.
discriminatorColumn
discriminatorColumn
optionally allows the specification of a name for the discriminator column in the case ofinheritance per class
. It appears within the braces after the inheritance-strategy statement and must be followed by a semicolon. It defaults toDISC
.
discriminatorType
discriminatorType
optionally allows the definition of the datatype of the discriminator within the single table. It can be set toCHAR
,INT
,STRING
orINHERIT
. It appears within the braces after theinheritance
statement and must be followed by a semicolon. It defaults toSTRING;
.
discriminatorValue
discriminatorValue
allows a custom value to be used for the discriminator within the single table. It appears within the braces after theinheritance
statement and must be followed by a semicolon. It defaults to the entity name converted to snake case.
Beans
Beans are objects that are embedded in other entities, inheriting their persistence and lifecycle. Similar to entities, beans are characterised by their name, their properties and their references. For each bean that is defined in a package, a Java class is automatically generated.
Beans can be embedded into entities by defining them as properties of the respective entity. The appropriate annotations (@Embeddable
, @Embedded
, @AttributeOverrides
etc.) are added in order to have beans persisted with their parent entities.
Enums
Enums are an abstraction of the Java enum
. They compile to enum
classes and can be used as properties in entities and beans.
Properties
Properties of entities and beans are references to datatypes or enums. They can be regarded as variables and are defined by a keyword followed by a datatype (Java type or datatype defined in the datatype
section) and a name. By defining a bean as a property of an entity, it is embedded in it.
Properties can be determined with the following keywords:
var
The basic property
var
defines a variable that is persisted in a table column. A property must have a type and a name.Multiplicity of properties can be controlled by the following (optional) settings:
[1]
defines a non-nullable property.[0..1]
defines a nullable property (this is the default behavior).[1..*]
defines a list of properties that must not be empty.[0..*]
or simply[*]
defines a list of properties that may be empty.The appropriate persistence settings are generated automatically. If a multiplicity is specified, the appropriate annotations (and, if necessary, a list rather than a single variable) are generated.
derived
derived
defines a property that is derived from other properties. The derived property must be have a type, a name and the calculation logic that derives it from the other properties, written as an Xexpression in braces.The code is automatically translated to valid Java code.
dirty
dirty
defines a property used as a flag to track the "dirty" state of the buffered data when editing values, before the changes have been written back to the persistence entity. Only onedirty
flag is allowed per entity. The datatype has to be boolean.The boolean field for this property and the appropriate annotation are generated with the
dirty
keyword.
domainDescription
domainDescription
defines a property that is used as a domain description. The appropriate annotation is added to the property. A domain description must be of typeString
. Domain descriptions may be derived from other properties.
domainKey
domainKey
defines a domain key. The appropriate annotation is added to the property. Primitive datatypes may be used as domain keys.
id
► -- deprecated -- deprecated -- deprecated -- deprecated -- deprecated -- deprecated -- deprecated -- deprecated --
id defines an ID property (used as a primary key by the JPA compiler). This keyword is deprecated - use uuid instead. If no
id
is specified, a warning is given.Caution: ID autogeneration causes problems, since the value is not set before the entity is persisted, e.g., in the database. It is therefore advised to use the
uuid
keyword instead.Caution: The generated IDs are not necessarily unique if the deprecated
id
keyword is used!
index
The
index
keyword causes an index for the table to be generated. Indexes may be based on one or more properties (primitive only) and references (one-to-one only) of the entity. An index must be given a name and, in braces, a list of the fields it is based upon. If theindex
keyword is prefixed withunique
, a unique index is created.The
@Table
annotation is supplemented with the index definition.
properties
Features (properties and references) of entities and beans can optionally be given additional information in the form of key-value pairs. This information can then be retrieved from the semantic model. The key-value pairs are defined in parentheses after the properties keyword following the feature name. Multiple pairs can be defined (comma-separated).
uuid
uuid
allows the use of Universally Unique IDs as primary keys. A new UUID value is generated for each object as soon as that object has been created, independently of database operations. This circumvents the problems with theid
keyword. UUIDs have to be of typeString
.
version
version
defines a version-property (used by the JPA-Compiler).
transient
transient
marks the property as transient. Instead of a@Column
, a@Transient
annotation is generated, so that the property is not persisted in the database.
References
The Entity DSL tracks relationships between entities by using the concept of "references". References can exist between objects of the same nature (entities to entities, beans to beans). Where appropriate, back references ("opposite") are added.
References are defined by the ref
keyword, a target, an optional type and a name. The exact type of the reference can be specified with the following modifiers:
Multiplicity and nullability
The Entity DSL supports the specification of multiplicities in square brackets appended to the type:
[1]
defines a non-nullable, one-to-one relationship.[0..1]
defines a nullable, one-to-one relationship (this is the default behavior).[1..*]
defines a non-nullable, one-to-many relationship. Anopposite
reference is needed.[0..*]
or simply[*]
defines a nullable, one-to-many relationship. Anopposite
reference is needed.
opposite reference
Lifecycle references need the specification of an opposite reference. This can be done with the
opposite
keyword.Using the
opposite
reference, it is possible to navigate back to the original object after following the reference.
cascade
The
cascade
specifier controls the behavior of the database on delete operations. If an object with acascade
reference to other objects is deleted, those other objects will be removed as well.
Operations
Operations are other important features. They are based on Xbase and offer a huge set of semantic features, extending the featureset of Java. Xbase additionally offers features such as closures.
Operations can be declared by the def
keyword followed by braces containing the inline operation.
These methods are translated into the appropriate Java methods along with the automatically generated getter and setter methods.
Operations can be combined with the Annotations @PrePersist,@PreUpdate, etc. They will be executed when the entity is persisted, updated, etc. More details can be found here
It is possible to use the same annotation multiple times, they will be executed one after the ofter. The @PostPersist and @PostUpdate operations will be executed in an asynchronos way to unblock the userinterface. This may lead to a delay in execution, if there are many requests at a time.
Annotations
Annotations can be added to all elements except import declarations. Specifying annotations in the Entity DSL works in a straightforward manner; content assist is available. The added annotations are taken over into the generated Java code.
These methods are translated into the appropriate Java methods along with the automatically generated getter and setter methods.
Comments
Comments can be added anywhere in an .entitymodel text file and are copied over into the generated Java code. Comments are enclosed in /* ... */
.
Comments before the package
keyword are copied over to all generated Java classes – this is the place for copyright notices.
Reserved Keywords
The keywords of the Entity DSL are syntactic features and can therefore not be used as semantic identifiers.
In order to circumvent this, it is possible to escape them with the ^
character. During the generation of the Java code, this escape character is removed.
Please note that you are not allowed to use identifiers corresponding to reserved keywords of the supported databases you can find here below:
[https://dev.mysql.com/doc/refman/8.0/en/keywords.html MySQL]
[https://www.postgresql.org/docs/8.2/sql-keywords-appendix.html PostgreSQL]
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