The ORDA technology is based upon an automatic mapping of an underlying 4D structure. It also provides access to data through entity and entity selection objects. As a result, ORDA exposes the whole database as a set of data model objects.
When you call a datastore using the
ds or the
Open datastore command, 4D automatically references tables and fields of the corresponding 4D structure as properties of the returned datastore object:
- Tables are mapped to dataclasses.
- Fields are mapped to storage attributes.
- Relations are mapped to relation attributes - relation names, defined in the Structure editor, are used as relation attribute names.
The following rules are applied for any conversions:
- Table, field, and relation names are mapped to object property names. Make sure that such names comply with general object naming rules, as explained in the object naming conventions section.
- A datastore only references tables with a single primary key. The following tables are not referenced:
- Tables without a primary key
- Tables with composite primary keys.
- BLOB type attributes are not managed in the datastore. BLOB type attributes are returned as Null in entities and cannot be assigned.
ORDA mapping does not take into account:
- the "Invisible" option for tables or fields, - the virtual structure defined through
SET TABLE TITLESor
SET FIELD TITLES, - the "Manual" or "Automatic" property of relations.
Rules for remote access control
When accessing a remote datastore through the
Open datastore command or REST requests, only tables and fields with the Expose as REST resource property are available remotely.
This option must be selected at the 4D structure level for each table and each field that you want to be exposed as dataclass and attribute in the datastore:
Data model update
Any modifications applied at the level of the database structure invalidate the current ORDA model layer. These modifications include:
- adding or removing a table, a field, or a relation
- renaming of a table, a field, or a relation
- changing a core property of a field (type, unique, index, autoincrement, null value support)
When the current ORDA model layer has been invalidated, it is automatically reloaded and updated in subsequent calls of the local
ds datastore on 4D and 4D Server. Note that existing references to ORDA objects such as entities or entity selections will continue to use the model from which they have been created, until they are regenerated.
However, the updated ORDA model layer is not automatically available in the following contexts:
- a remote 4D application connected to 4D Server -- the remote application must reconnect to the server.
- a remote datastore opened using
Open datastoreor through REST calls -- a new session must be opened.
The datastore is the interface object to a database. It builds a representation of the whole database as object. A datastore is made of a model and data:
- The model contains and describes all the dataclasses that make up the datastore. It is independant from the underlying database itself.
- Data refers to the information that is going to be used and stored in this model. For example, names, addresses, and birthdates of employees are pieces of data that you can work with in a datastore.
When handled through the code, the datastore is an object whose properties are all of the dataclasses which have been specifically exposed.
4D allows you to handle the following datastores:
- the local datastore, based on the current 4D database, returned by the
dscommand (the main datastore).
- one or more remote datastore(s) exposed as REST resources in remote 4D databases, returned by the
A datastore references only a single local or remote database.
The datastore object itself cannot be copied as an object:
$mydatastore:=OB Copy(ds) //returns null
The datastore properties are however enumerable:
ARRAY TEXT($prop;0) OB GET PROPERTY NAMES(ds;$prop) //$prop contains the names of all the dataclasses
The main (default) datastore is always available through the
ds command, but the
Open datastore command allows referencing any remote datastore.
A dataclass is the equivalent of a table. It is used as an object model and references all fields as attributes, including relational attributes (attributes built upon relations between dataclasses). Relational attributes can be used in queries like any other attribute.
All dataclasses in a 4D project are available as a property of the
ds datastore. For remote datastores accessed through
Open datastore or REST requests, the Expose as REST resource option must be selected at the 4D structure level for each exposed table that you want to be exposed as dataclass in the datastore.
For example, consider the following table in the 4D structure:
Company table is automatically available as a dataclass in the
ds datastore. You can write:
var $compClass : cs.Company //declares a $compClass object variable of the Company class $compClass:=ds.Company //assigns the Company dataclass reference to $compClass
A dataclass object can contain:
- relation attributes
The dataclass offers an abstraction of the physical database and allows handling a conceptual data model. The dataclass is the only means to query the datastore. A query is done from a single dataclass. Queries are built around attributes and relation attribute names of the dataclasses. So the relation attributes are the means to involve several linked tables in a query.
The dataclass object itself cannot be copied as an object:
$mydataclass:=OB Copy(ds.Employee) //returns null
The dataclass properties are however enumerable:
ARRAY TEXT($prop;0) OB GET PROPERTY NAMES(ds.Employee;$prop) //$prop contains the names of all the dataclasse attributes
Dataclass properties are attribute objects describing the underlying fields or relations. For example:
$nameAttribute:=ds.Company.name //reference to class attribute $revenuesAttribute:=ds.Company["revenues"] //alternate way
This code assigns to
$revenuesAttribute references to the name and revenues attributes of the
Company class. This syntax does NOT return values held inside of the attribute, but instead returns references to the attributes themselves. To handle values, you need to go through Entities.
All eligible fieds in a table are available as attributes of their parent dataclass. For remote datastores accessed through
Open datastore or REST requests, the Expose as REST resource option must be selected at the 4D structure level for each field that you want to be exposed as a dataclass attribute.
Storage and Relation attributes
Dataclass attributes come in several kinds: storage, relatedEntity, and relatedEntities. Attributes that are scalar (i.e., provide only a single value) support the standard 4D data type (integer, text, object, etc.).
- A storage attribute is equivalent to a field in the 4D database and can be indexed. Values assigned to a storage attribute are stored as part of the entity when it is saved. When a storage attribute is accessed, its value comes directly from the datastore. Storage attributes are the most basic building block of an entity and are defined by name and data type.
- A relation attribute provides access to other entities. Relation attributes can result in either a single entity (or no entity) or an entity selection (0 to N entities). Relation attributes are built upon "classic" relations in the relational structure to provide direct access to related entity or related entities. Relation attributes are directy available in ORDA using their names.
For example, consider the following partial database structure and the relation properties:
All storage attributes will be automatically available:
- in the Project dataclass: "ID", "name", and "companyID"
- in the Company dataclass: "ID", "name", and "discount"
In addition, the following relation attributes will also be automatically available:
- in the Project dataclass: theClient attribute, of the "relatedEntity" kind; there is at most one Company for each Project (the client)
- in the Company dataclass: companyProjects attribute, of the "relatedEntities" kind; for each Company there is any number of related Projects.
The Manual or Automatic property of a database relation has no effect in ORDA.
All dataclass attributes are exposed as properties of the dataclass:
Keep in mind that these objects describe attributes, but do not give access to data. Reading or writing data is done through entity objects.
An entity is the equivalent of a record. It is actually an object that references a record in the database. It can be seen as an instance of a dataclass, like a record of the table matching the dataclass. However, an entity also contains data correlated to the database related to the datastore.
The purpose of the entity is to manage data (create, update, delete). When an entity reference is obtained by means of an entity selection, it also retains information about the entity selection which allows iteration through the selection.
The entity object itself cannot be copied as an object:
$myentity:=OB Copy(ds.Employee.get(1)) //returns null
The entity properties are however enumerable:
ARRAY TEXT($prop;0) OB GET PROPERTY NAMES(ds.Employee.get(1);$prop) //$prop contains the names of all the entity attributes
An entity selection is an object containing one or more reference(s) to entities belonging to the same dataclass. It is usually created as a result of a query or returned from a relation attribute. An entity selection can contain 0, 1 or X entities from the dataclass -- where X can represent the total number of entities contained in the dataclass.
var $e : cs.EmployeeSelection //declares a $e object variable of the EmployeeSelection class type $e:=ds.Employee.all() //assigns the resulting entity selection reference to the $e variable
Entity selections can be:
- "shareable" or "non-shareable",
- "sorted" or "unsorted".
These points are discussed below.
The entity selection object itself cannot be copied as an object:
$myentitysel:=OB Copy(ds.Employee.all()) //returns null
The entity selection properties are however enumerable:
ARRAY TEXT($prop;0) OB GET PROPERTY NAMES(ds.Employee.all();$prop) //$prop contains the names of the entity selection properties //("length", 00", "01"...)
Ordered or unordered entity selection
For optimization reasons, by default 4D ORDA usually creates unordered entity selections, except when you use the
orderBy( ) method or use specific options. In this documentation, unless specified, "entity selection" usually refers to an "unordered entity selection".
Ordered entity selections are created only when necessary or when specifically requested using options, i.e. in the following cases:
- result of an
orderBy()on a selection (of any type) or an
orderBy()on a dataclass
- result of the
newSelection()method with the
dk keep orderedoption
Unordered entity selections are created in the following cases:
- result of a standard
query()on a selection (of any type) or a
query()on a dataclass,
- result of the
newSelection()method without option,
- result of any of the comparison methods, whatever the input selection types:
The following entity selections are always ordered:
- entity selections returned by 4D Server to a remote client
- entity selections built upon remote datastores.
Note that when an ordered entity selection becomes an unordered entity selection, any repeated entity references are removed.