This document describes Jena’s built-in assembler classes and how to write and integrate your own assemblers. If you just need a quick guide to the common model specifications, see the assembler quickstart; if you want more details on writing assembler descriptions, see the assembler howto.
The Assembler interface
An Assembler
is an object that builds objects (most importantly,
Model
s) from RDF descriptions.
public Object open( Assembler a, Resource root, Mode mode );
public Object open( Assembler a, Resource root );
public Object open( Resource root );
public Model openModel( Resource root );
public Model openModel( Resource root, Mode mode );
The fundamental method is the first: all the others are shorthands
for ways of calling it. The abstract class AssemblerBase
implements Assembler
leaving only that method abstract and
defining the others in terms of it.
The definition of a.open(Assembler sub, Resource root, Mode mode)
is that a
will construct the object described by the properties
of root
. If this requires the construction of sub-objects from
descriptions hanging off root
, sub.open
is to be used to
construct those. If the object is to be constructed in some
persistent store, mode
defines whether objects can be re-used or
created: see modes for more details.
Builtin assemblers
Jena comes with a collection of built-in assemblers: various
basic assemblers and a composite general assembler. Each of
these assemblers has a constant instance declared as a field of
Assembler
.
Assembler | Result class | Type constant |
---|---|---|
Temporarily omitted as the source got scrambled by the Markdown import TODO |
Inside Assemblers
Assembler.general
is a particular implementation of the
Assembler
interface. An Assembler
knows how to build the
objects - not just models - described by an Assembler
specification. The normal route into an Assembler is through the
method:
- open( Resource root ) ? Object
The Assembler inspects the root
resource properties and decides
whether it can build an object with that description. If not, it
throws an exception. Otherwise, it constructs and returns a
suitable object.
Since the creation of Models is the reason for the existence of
Assemblers, there is a convenience wrapper method:
- openModel( Resource root ) ? Model
which constructs the object and checks that it’s a Model before
returning it.
When an Assembler
requires sub-objects (for example, when an
InfModel Assembler requires a Reasoner object), it uses the
method:
- open( Assembler sub, Resource root ) ? Model
passing in a suitable Assembler object. In fact the standard
implementation of open(root)
is just
- open( this, root )
passing in itself as the sub-assembler and having
open(Assembler,Resource)
be the place where all the work is done.
(Amongst other things, this makes testing easier.)
When working with named persistent objects (typically database
models), sometimes you need to control whether new objects should
be constructed or old models can be reused. There is an additional
method
- open( Assembler sub, Resource root, Mode mode )
where the Mode
argument controls the creation (or not) of
persistent models. The mode is passed down to all sub-object
creation. The standard implementation of open(sub,root)
is just:
- open( sub, root, Mode.DEFAULT )
A Mode
object has two methods:
- permitCreateNew( Resource root, String name )
- permitUseExisting( Resource root, String name )
root
is the root resource describing the object to be created or
reused, and name
is the name given to it. The result is true
iff the permission is granted. Mode.DEFAULT
permits the reuse of
existing objects and denies the creation of new ones.
There are four Mode constants:
- Mode.DEFAULT - reuse existing objects
- Mode.CREATE - create missing objects
- Mode.REUSE - reuse existing objects
- Mode.ANY - reuse existing objects, create missing ones
Since the Mode
methods are passed the resource root and name, the
user can write specialised Mode
s that look at the name or the
other root properties to make their decision.
Note that the Modes only apply to persistent objects, so eg
MemoryModels or PrefixMappings ignore their Mode arguments.
Implementing your own assemblers
(Temporary documentation pasted in from email; will be integrated and made nice RSN.)
You have to implement the Assembler interface, most straightforwardly
done by subclassing AssemblerBase and overriding
public Object open( Assembler a, Resource root, Mode mode );
because AssemblerBase both implements the boring methods that are
just specialisations of `open` and provides some utility methods
such as getting the values of unique properties. The arguments are
* a -- the assembler to use for any sub-assemblies
* root -- the resource in the assembler description for this object
* mode -- the persistent open vs create mode
The pattern is to look for the known properties of the root, use
those to define any sub-objects of the object you're assembling
(including using `a` for anything that's itself a structured
object) and then constructing a new result object from those
components.
Then you attach this new assembler object to its type in some
AssemblerGroup using that group's `implementWith` method. You
can attach it to the handy-but-public-and-shared group
`Assembler.general` or you can construct your own group. The
point about an AssemblerGroup is that it does the type-to-assembler
mapping for you -- and when an AssemblerGroup calls a component
assembler's `open` method, it passes /itself/ in as the `a` argument,
so that the invoked assembler has access to all of the component
assemblers of the Group.
basic assemblers
There is a family of basic assemblers, each of which knows how to
assemble a specific kind of object so long as they’re given an
Assembler that can construct their sub-objects. There are defined
constants in Assembler
for (an instance of) each of these basic
assembler classes.
produces | Class | Type | constant |
---|---|---|---|
default models | DefaultModelAssembler | ja:DefaultModel | defaultModel |
memory models | MemoryModelAssembler | ja:MemoryModel | memoryModel |
inference models | InfModelAssembler | ja:InfModel | infModel |
reasoners | ReasonerAssembler | ja:Reasoner | reasoner |
content | ContentAssembler | ja:Content | content |
ontology models | OntModelAssembler | ja:OntModel | ontModel |
rules | RuleSetAssembler | ja:RuleSet | rules |
union models | UnionModelAssembler | ja:UnionModel | unionModel |
prefix mappings | PrefixMappingAssembler | ja:PrefixMapping | prefixMapping |
file models | FileModelAssembler | ja:FileModel | fileModel |
Assembler.general
is an assembler group, which ties together
those basic assemblers. general
can be extended by Jena coders if
required. Jena components that use Assembler specifications to
construct objects will use general
unless documented otherwise.
In the remaining sections we will discuss the Assembler
classes
that return non-Model objects and conclude with a description of
AssemblerGroup
.
Basic assembler ContentAssembler
The ContentAssembler constructs Content objects (using the
ja:Content
vocabulary) used to supply content to models. A
Content object has the method:
- fill( Model m ) ? m
Invoking the fill
method adds the represented content to the
model. The supplied ModelAssemblers automatically apply the
Content
objects corresponding to ja:content
property values.
Basic assembler RulesetAssembler
A RulesetAssembler generates lists of Jena rules.
Basic assembler DefaultModelAssembler
A “default model” is a model of unspecified type which is
implemented as whatever kind the assembler for ja:DefaultModel
generates. The default for a DefaultModel is to create a
MemoryModel with no special properties.
AssemblerGroup
The AssemblerGroup class allows a bunch of other Assemblers to be bundled together and selected by RDF type. AssemblerGroup implements Assembler and adds the methods:
- implementWith( Resource type, Assembler a ) ? this
- assemblerFor( Resource type ) ? Assembler
AssemblerGroup’s implementation of open(sub,root)
finds the
most specific type of root
that is a subclass of ja:Object
and looks for the Assembler that has been associated with that type
by a call of implementWith
. It then delegates construction to
that Assembler, passing itself as the sub-assembler. Hence each
component Assembler only needs to know how to assemble its own
particular objects.
The assemblerFor
method returns the assembler associated with the
argument type by a previous call of implementWith
, or null
if
there is no associated assembler.
Loading assembler classes
AssemblerGroups implement the ja:assembler
functionality. The
object of an (type ja:assembler "ClassName")
statement is a
string which is taken as the name of an Assembler
implementation
to load. An instance of that class is associated with type
using
implementWith
.
If the class has a constructor that takes a single Resource
object, that constructor is used to initialise the class, passing
in the type
subject of the triple. Otherwise the no-argument
constructor of the class is used.