center>'''Databoard 0.6.1 Developer Manual'''</center>

=Datatype=
In Databoard all values have a type representation, [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/Datatype.java|Datatype.java]]. 
It is the base abstract class for all concrete type classes (See table below). 
There is a facade class utility ([[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Datatypes.java|Datatypes]]) that provides functions to most of the Datatype library's features.

'''[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type|org.simantics.databoard.type]]'''.
{| style="background-color: #e9e9e9; border: 1px solid #aaaaaa; "
| '''Class'''
| '''Description'''
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/Datatype.java|Datatype]]
| Base class for all data types
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/RecordType.java|RecordType]]
| Record 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/ArrayType.java|ArrayType]]
| Array - an ordered sequence of elements of one type.
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/MapType.java|MapType]]
| Map - an ordered map of keys to values. 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/UnionType.java|UnionType]]
| Union
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/BooleanType.java|BooleanType]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/IntType.java|IntType]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/LongType.java|LongType]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/FloatType.java|FloatType]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/DoubleType.java|DoubleType]]
| Primitive and numeric types
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/StringType.java|StringType]]
| String 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/OptionalType.java|OptionalType]]
| Optional value
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/type/VariantType.java|VariantType]]
| Variant value
|}


Datatype can be acquired or created using one of the following methods:
* Construct new
* Constant 
* [[#Reflection|Reflection]]-Read from a Class
* Read from string of [[Databoard_Specification|the text notation]].
    Datatype type = new DoubleType();
    Datatype type = Datatypes.DOUBLE;
    Datatype type = Datatypes.getDatatype( Double.class );
    
    Datatypes.addDefinition("type Node = { id : String; children : Node[] }");
    Datatype type = Datatypes.getDatatype("Node");


==Parsing==
Datatypes are parsed using <code>Datatypes.DatatypeRepository</code>. 
    Datatypes.addDefinition("type Node = { id : String; children : Node[] }");
    Datatype type = Datatypes.getDatatype("Node");

Types are printed to types and definitions with 
    String type = type.toString();
    
    DatatypeRepository repo = new DatatypeRepository();
    repo.add("temp1", type);
    String typeDef = repo.toString();

==Structure Example==
A node is a recursive type. With databoard typesystem it could be stated as
  type Node = {
         id : String;
         displayNames : LocalizedTexts;
         children : Node[];
         value : Optional(Variant);
       }

[[Image:NodeType.png|Type presented as tree]]


A couple of instances with Databoard value notation:
  root : Node = {
           id = “PI_01”
           displayNames = map{ “en” = “Instrument “ }
           children = 
            [ 
              {id=”Child”, 
               displayNames = map{ “en” = “Child”} },
               value = 5 : Integer
              }
            ]
           value = “<root>” : String
         }

[[Image:NodeInstance.png|Node values preseted as tree]]

=Binding=
There is a [[Databoard_Specification#Datatypes|type system]], and when developing with java, platform neutral data values can be read from and written to objects. This is the role of a binding, a map from a Java Class to a Datatype. 

For instance, take a java.lang.Double. Its instance is the container (<code>private final double value;</code>) of the data and its Binding (DoubleBinding) is the access (<code>.valueOf()</code>, <code>.getDouble()</code>) to the data. 
    Java Object + Binding = Databoard Value

Bindings have the exact same composition tree structure as its respective <code>Datatype</code> - structural types have structural Bindings, and primitive types a single binding. To acquire a binding, the developer can use a utility that creates one using Java reflection functions. 
    Binding binding = Binding.getBinding( Double.class );

Sometimes classes cannot bound using automatic tool, for instance when using 3rd party classes which cannot be modified. The developer must then write binding self by sub-classing on of the 13 base binding classes (There is a base binding class for each Datatype). 
    Binding binding = new RecordBinding() { ... };


'''[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding|org.simantics.databoard.binding]]'''.
{| style="background-color: #e9e9e9; border: 1px solid #aaaaaa; "
| '''Class'''
| '''Description'''
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/DataBinding.java|DataBinding]]
| Base class for all data Bindings
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/RecordBinding.java|RecordBinding]]
| Record 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/ArrayBinding.java|ArrayBinding]]
| Array - an ordered sequence of elements of one value.
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/MapBinding.java|MapBinding]]
| Map - an ''ordered'' map of keys to values. 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/UnionBinding.java|UnionBinding]]
| Union
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/BooleanBinding.java|BooleanBinding]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/IntBinding.java|IntBinding]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/LongBinding.java|LongBinding]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/FloatBinding.java|FloatBinding]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/DoubleBinding.java|DoubleBinding]]
| Primitive and numeric Bindings
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/StringBinding.java|StringBinding]]
| String 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/OptionalBinding.java|OptionalBinding]]
| Optional value
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/binding/VariantBinding.java|VariantBinding]]
| Variant value
|}


Binding can be acquired or created using one of the following methods:
* Constructor 
* Constant
* Reflection-Read from a Class 
* Created using [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/bindingscheme/BindingScheme.java|BindingScheme]]
    Binding binding = new DoubleBinding( doubleType );
    Binding binding = new RecordBinding() { ... };
    Binding binding = Bindings.DOUBLE;
    Binding binding = Binding.getBinding( Double.class );
    Binding binding = Binding.getBinding( Datatypes.DOUBLE );

==Reflection==
'''Data Type and Binding can be read automatically from a Class by utility.'''
    Datatype type = Datatypes.getDatatype( Foo.class );
    Binding binding = Bindings.getBinding( Foo.class );

Bindings for generics classes can be created by passing arguments.
    Binding e = Bindings.getBinding(List.class, String.class);
    List<String> list = (List<String>) e.createRandom(5);

    Binding binding = Bindings.getBinding( Map.class, Integer.class, Integer.class );
    Map<Integer, Integer> value = (Map<Integer, Integer>) binding.createDefault();

Even cascading generics...
    Binding e = Bindings.getBinding(List.class, List.class, String.class);
    List<List<String>> listList = (List<List<String>>) e.createRandom(5);


'''Classes are RecordTypes'''
    class Foo {
        public int x, y, z;
    }
Is a binding to the following Datatype
    type Foo = { x : Integer, y : Integer, z : Integer }

'''There are three types of classes supported, and therefore three ways how objects are constructed.'''
If you create binding for your class with Bindings#getBinding( clazz ), the class must adhere one of these format. You may have to add annotations such as @Recursive, @Optional, @Arguments. 

''Record-like classes:''
    class Foo {
        public String name;
        public Object value;
    }

''Immutable classes:''
    class Foo {
        private String name;
        private Object value;
        
        public Foo(String name, Object value) {
            this.name = name;
            this.value = value;
        }
        
        public String getName() {
            return name;
        }
        
        public Object getValue() {
            return value;
        }
        
    }

''Bean-like classes:''
    class Foo {
        private String name;
        private Object value;
        
        public void setName(String name) {
            this.name = name;
        }
        
        public void setValue(Object value) {
            this.value = value;
        }
        
        public String getName() {
            return name;
        }
        
        public Object getValue() {
            return value;
        }
        
    }

'''Static and transient fields are omited:'''
    static final long serialVersionUID = -3387516993124229943L;
    transient int hashCode;

'''Enumerations are Union Types'''
    enum Cars { Ferrari, Porche, Lamborghini, Jaguar }    
is interpreted as union type
    type Cars = | Ferrari | Porche | Lamborghini | Jaguar

If you cannot modify the class, you have to create binding for it by subclassing base binding classes, eg. RecordBinding.

'''Other exceptions:'''
*<code>java.lang.Object</code> is <tt>Variant</tt>.
*<code>java.lang.Set<T></code> is <tt>Map(T, {})</tt>.
*<code>java.lang.TreeSet<T></code> is <tt>Map(T, {})</tt>.
*<code>java.lang.HashSet<T></code> is <tt>Map(T, {})</tt>. (Note HashSet binding has very low performance.)
*<code>java.lang.Map<K, V></code> is <tt>Map(K, V)</tt>.
*<code>java.lang.TreeMap<K, V></code> is <tt>Map(K, V)</tt>.
*<code>java.lang.HashMap<K, V></code> is <tt>Map(K, V)</tt>. (Note HashMap binding has very low performance.)
*<code>java.lang.List<T></code> is <tt>Array(T)</tt>.
*<code>java.lang.ArrayList<T></code> is <tt>Array(T)</tt>.
*<code>java.lang.LinkedList<T></code> is <tt>Array(T)</tt>.
*<code>void</code> is <tt>{}</tt>.
*The stacktrace of <code>Exception.class</code> is omited.

===Annotations===
Java Classes / Fields can be annotated with the following annotations ('''[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/annotations/|org.simantics.databoard.annotations]]''').


'''UnionTypes are abstract classes or interfaces with <code>@Union</code> annotation.'''
    @Union({A.class, B.class}) interface Union1 {		
    }
    
    class A implements Union1 {
        public int value;
    }
    
    class B implements Union1 {
        public String name;
    }


'''<code>@Referable</code> denotes that the class has recursion and is a referable record.'''
    public @Referable class Node {
        public Node[] children;
    }


'''Fields that can have <tt>null</tt> value have <code>@Optional</code> annotation.'''
    @Optional String name;


'''String valid values are set with <code>@Pattern</code> as regular expression. ([http://en.wikipedia.org/wiki/Regular_expression])'''
    String @Pattern("(19|20)\\d\\d[- /.](0[1-9]|1[012])[- /.](0[1-9]|[12][0-9]|3[01])") date;
    
    type Date = String( Pattern = "(19|20)\d\d[- /.](0[1-9]|1[012])[- /.](0[1-9]|[12][0-9]|3[01])" )


'''String content type is set with a <code>@MIMEType</code>. ([http://en.wikipedia.org/wiki/Mime_type MIME Type])'''
    @MIMEType("text/xml") String document;


'''Array size restricted with @Length.'''
    @Length("[0..10]") int[] array;
    @Length({"[320]", "[240]"}) int[][] image;


'''Valid numeric range is set with @Range.'''
    @Range("[0..100]") double alpha;
    @Range("[0..]" double length;


'''<tt>Range</tt> and <tt>Length</tt> notation:'''
*Exact Value "0"
*Exclude all "()"
*Unlimited "[..]"
*Inclusive range "[0..100]"
*Exclusive range "(0..100)"
*Inclusive lower bound and exclusive upper bound "[0..100)"


'''Engineering unit type is given with @Unit.'''
    @Unit("km/h") double maxVelocity;

'''The serializer generated with reflection can be overriden with @SpecializedSerializer'''
    @SpecializedSerializer(MySerializer.class) 
    public class MyRecord {
        ...
    }

== Mapping Scheme ==
A ''binding scheme'' associates some data types with a unique binding. The mapping of types to bindings is bijective, there is one binding for each type and vice-versa.

<code>DefaultBindingScheme</code> is a scheme that converts any datatype to a binding. It prefers java.lang.X primitives.
The Class mapping for each type is listed below.
{| style="background-color: #e9e9e9; border: 1px solid #aaaaaa; "
| '''Type'''
| '''Class'''
|- style="background-color: #f9f9f9; " |
| <code>BooleanType</code>
| <code>Boolean.class</code>
|- style="background-color: #f9f9f9; " |
| <code>ByteType</code>
| <code>Byte.class</code>
|- style="background-color: #f9f9f9; " |
| <code>FloatType</code>
| <code>Float.class</code>
|- style="background-color: #f9f9f9; " |
| <code>DoubleType</code>
| <code>eDouble.class</code>
|- style="background-color: #f9f9f9; " |
| <code>IntegerType</code>
| <code>Integer.class</code>
|- style="background-color: #f9f9f9; " |
| <code>LongType</code>
| <code>Long.class</code>
|- style="background-color: #f9f9f9; " |
| <code>StringType</code>
| <code>String.class</code>
|- style="background-color: #f9f9f9; " |
| <code>UnionType</code>
| <code>TaggedObject.class</code>
|- style="background-color: #f9f9f9; " |
| <code>OptionType</code>
| <code>ValueContainer.class</code>
|- style="background-color: #f9f9f9; " |
| <code>RecordType</code>
| <code>Object[].class</code>
|- style="background-color: #f9f9f9; " |
| <code>ArrayType</code>
| <code>ArrayList.class</code>
|- style="background-color: #f9f9f9; " |
| <code>Array(Byte)</code>
| <code>byte[].class</code>
|- style="background-color: #f9f9f9; " |
| <code>MapType</code>
| <code>TreeMap.class</code>
|- style="background-color: #f9f9f9; " |
| <code>VariantType</code>
| <code>Variant.class</code>
|}

<code>MutableBindingScheme</code> is a scheme that provides a fully implementing mutable binding for all data types. 
The Class mapping for each type is listed below.

{| style="background-color: #e9e9e9; border: 1px solid #aaaaaa; "
| '''Type'''
| '''Class'''
|- style="background-color: #f9f9f9; " |
| <code>BooleanType</code>
| <code>MutableBoolean.class</code>
|- style="background-color: #f9f9f9; " |
| <code>ByteType</code>
| <code>MutableByte.class</code>
|- style="background-color: #f9f9f9; " |
| <code>FloatType</code>
| <code>MutableFloat.class</code>
|- style="background-color: #f9f9f9; " |
| <code>DoubleType</code>
| <code>MutableDouble.class</code>
|- style="background-color: #f9f9f9; " |
| <code>IntegerType</code>
| <code>MutableInt.class</code>
|- style="background-color: #f9f9f9; " |
| <code>LongType</code>
| <code>MutableLong.class</code>
|- style="background-color: #f9f9f9; " |
| <code>StringType</code>
| <code>MutableString.class</code>
|- style="background-color: #f9f9f9; " |
| <code>UnionType</code>
| <code>TaggedObject.class</code>
|- style="background-color: #f9f9f9; " |
| <code>OptionType</code>
| <code>ValueContainer.class</code>
|- style="background-color: #f9f9f9; " |
| <code>RecordType</code>
| <code>Object[].class</code>
|- style="background-color: #f9f9f9; " |
| <code>ArrayType</code>
| <code>ArrayList.class</code>
|- style="background-color: #f9f9f9; " |
| <code>MapType</code>
| <code>TreeMap.class</code>
|- style="background-color: #f9f9f9; " |
| <code>VariantType</code>
| <code>Variant.class</code>
|}


===Serialization===
[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/serialization/binary/Serializer.java|Serializer.java]] is a class that serializes Values into and from binary serialization format. It follows the Databoard [[Databoard_Specification#Binary_File_Format|Binary File Format]].

    Binding binding = Bindings.DOUBLE;
    Serializer serializer = Bindings.getSerializer( binding );
    byte[] data = serializer.serialize( new Double( 100.0 ) );
    
    Double value = (Double) serializer.deserialize( data );

Files can be partially accessed using BinaryAccessor, see [[#Accessors|Accessors]]. This is useful when handling larger than memory files.

===Validation===
'''Value''' can be ''well-formed'' or ''valid''. 
The domain of valid values are defined with restrictions in data types, and <code>@Length</code>, <code>@Range</code>, <code>@Pattern</code> and <code>@MIMEType</code> Annotations in Classes

Validation mechanism in Binding asserts that the instance is a valid value of the respective Data Type.
    try {
        Binding.assertInstaceIsValid( object );
    } catch( BindingException e ) {
        // In-valid object
    }

===Other Notes===
*<tt>Binding</tt> is a <tt>Comparator</tt>, all data values are comparable, the order is defined in [[Databoard_Specification#Comparison|Specification]].
*<tt>Binding#createDefault()</tt> creates a valid instance of the Datatype.
*<tt>Binding#createRandom(int)</tt> creates a valid instance with random values. Useful for unit tests.
*<tt>Binding#clone(Object)</tt> creates a new instance with same content.
*<tt>Binding#readFrom(Object, Binding, Binding)</tt> copies contents from another object of same type.

===Parsing & Printing===

Data values are printed and parsed of the [[Databoard_Specification|Text notation]] with the following <code>Binding</code> methods:

    String text = binding.printValue( value, true );
    
    Object value = binding.parseValue( text );

And also to value definitions <tt>''name : type = value''</tt>
    StringBuilder sb = new StringBuilder();
    DataValueRepository repo = new DataValueRepository();
    repo.put( "temp", binding, value );
    binding.printValue( value, sb, repo, true );
    String text = sb.toString();
    
    Object value = binding.parseValueDefinition( text );

=Adapter=
There can be different Java Class Bindings for a single data type. For example, <code>Double</code> type can be have bindings <code>DoubleJavaBinding</code> and <code>MutableDoubleBinding</code> to two respective classes <code>java.lang.Double</code> and <code>MutableDouble</code>. Instance of one binding can be adapted to instance of another with an <code>[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/adapter/Adapter.java|Adapter]]</code>.

Adapter can be created automatically or implemented self.
    Adapter adapter = new Adapter() { ... };
    Adapter adapter = Bindings.getAdapter( domainBinding, rangeBinding );

Example:
    Adapter adapter = Bindings.getAdapter(Bindings.MUTABLE_DOUBLE, Bindings.DOUBLE);
    java.lang.Double double = adapter.adapt( new MutableDouble(5.0) );

There is also convenience.
    java.lang.Double double = Bindings.adapt( new MutableDouble(5.0), Bindings.MUTABLE_DOUBLE, Bindings.DOUBLE );

The argument given to <code>Adapter#adapt(Object)</code> may be re-used in the result unless the adapter is a cloning adapter which guarantees a clone. Note, even wih cloning adapters immutable classes, (eg java.lang.Integer) are never cloned.
    Adapter cloner = Bindings.adapterCache.getAdapter(domain, range, false, true);
    cloner.adapt( ... );

    Rectangle2D rect2 = Bindings.clone( rect1, rectBinding, rectBinding );

===Type Conversion===
In some cases different types may be are type-conversion compatible. An instance of one type is convertible to instance of another.

'''Engineering Units of same quantity are convertible.'''
    class CarSI {
        String modelName;		
        @Unit("km/h") double maxVelocity;		
        @Unit("kg") double mass;		
        @Unit("cm") double length; 
        @Unit("kW") double power;
    }
    
    class CarIm {
        String modelName;		
        @Unit("mph") float maxVelocity;		
        @Unit("lbs") float mass;		
        @Unit("ft") float length; 
        @Unit("hp(M)") float power;
    }
    
    Adapter si2imAdapter = Bindings.getTypeAdapter(
        Bindings.getBinding(CarSI.class), 
        Bindings.getBinding(CarIm.class) );
    
    CarIm americanCarInfo = si2imAdapter.adapt( europeanCarInfo );


'''Primitive Types.''' Note, primitive adapter throws an exception at runtime if values are not adaptable.
    Adapter adapter = getTypeAdapter( integerBinding, doubleBinding );
    Double double = adapter.adapt( new Integer( 5 ) );


'''Records are matched by field names.'''
    class Foo {
        int x, y, z;
    }
    class Bar {
        int z, y, x;
    }
    Adapter adapter = getTypeAdapter( fooBinding, barBinding );
    

'''Subtype to supertype:''' Note, this conversion cannot be not symmetric, supertypes cannot be converted to subtypes.
    class Node {
        String id;
    }
    class ValueNode extends Node {
        Object value;
    }
    Adapter adapter = getTypeAdapter( valueNodeBinding, nodeBinding );

'''Non-existing fields to Optional fields''' 
    class Node {
        String id;
    }
    class NominalNode {
        String id;
        @Optional String name;
    }
    Adapter adapter = getTypeAdapter( nodeBinding, nominalNodeBinding );
    

'''Enumerations'''
    enum Cars { Audio, BMW, Mercedes, Honda, Mazda, Toyota, Ford, Mitsubishi, Nissan, GM }
    enum JapaneseCars { Honda, Mazda, Toyota, Nissan, Mitsubishi }
    
    Binding carsBinding = Bindings.getBinding( Cars.class );
    Binding japaneseCarsBinding = Bindings.getBinding( JapaneseCars.class );
    Adapter adapter = Bindings.adapterCache.getAdapter(japaneseCarsBinding, carsBinding, true, false);

=Accessors=
Say, you have several gigabytes of data in a file. The whole object doesn't need to be serialized at once. You can read and write the value partially using [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/|Accessor]] interface. The actual container can be a file, memory byte[]/ByteBuffer or a Java Object. The content is structured as tree using Databoard's type system. All but referable records are supported (=no recursion in accessors). 

'''[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor|org.simantics.databoard.accessor]] interfaces'''.
{| style="background-color: #e9e9e9; border: 1px solid #aaaaaa; "
| '''Class'''
| '''Description'''
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/Accessor.java|Accessor]]
| Base class for all data Accessors
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/RecordAccessor.java|RecordAccessor]]
| Record 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/ArrayAccessor.java|ArrayAccessor]]
| Array - an ordered sequence of elements of one value.
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/MapAccessor.java|MapAccessor]]
| Map - an ''ordered'' map of keys to values. 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/UnionAccessor.java|UnionAccessor]]
| Union
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/BooleanAccessor.java|BooleanAccessor]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/IntAccessor.java|IntAccessor]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/LongAccessor.java|LongAccessor]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/FloatAccessor.java|FloatAccessor]],[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/DoubleAccessor.java|DoubleAccessor]]
| Primitive and numeric Accessors
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/StringAccessor.java|StringAccessor]]
| String 
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/OptionalAccessor.java|OptionalAccessor]]
| Optional value
|- style="background-color: #f9f9f9; " |
| [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/VariantAccessor.java|VariantAccessor]]
| Variant value
|}

[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Accessors.java|Accessors]] and [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Files.java|Files]] are facade classes that contains utilities for instantiating and handling Accessors.

<code>[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/binary/|Binary Accessor]]</code> is an access to a value in binary format (<tt>byte[]</tt> or <tt>ByteBuffer</tt>).

'''Example:''' Binary accessor
<div style="background-color:#fffff7; border: 1px dashed #cccccc; padding: 2ex; margin-left:2em; margin-right:2em; margin-top: 1em; margin-bottom:1em;"><syntaxhighlight lang="java">
Datatype type = Datatypes.getDatatype( Rectangle2D.Double.class );
Binding binding = Bindings.getBinding( Rectangle2D.Double.class );
Serializer s = Binding.getSerializer( binding );

// Serialize rectangle
Rectangle2D rect = new Rectangle2D.Double(0,0, 10, 10);
byte[] data = s.serialize(rect);

// Open accessor to byte data and modify first field in the byte data
RecordAccessor ra = Accessors.getAccessor(data, type);
ra.setFieldValue(0, Bindings.DOUBLE, 5.0);

// Deserialize values from the byte data back to the rectangle object
s.deserialize(data, rect);
System.out.println(rect.getX());
</syntaxhighlight></div>

'''Example:''' File accessor, create
<div style="background-color:#fffff7; border: 1px dashed #cccccc; padding: 2ex; margin-left:2em; margin-right:2em; margin-top: 1em; margin-bottom:1em;"><syntaxhighlight lang="java">
RecordType type = Datatypes.getDatatype( Rectangle2D.Double.class );
// Create a new file and initialize it with rectangle type, and open file accessor
FileRecordAccessor fa = Accessors.createFile( file, type );

// Write the first field (x)
fa.setFieldValue(0, Bindings.DOUBLE, 5.0);
fa.close();
</syntaxhighlight></div>

'''Example:''' File accessor, open
<div style="background-color:#fffff7; border: 1px dashed #cccccc; padding: 2ex; margin-left:2em; margin-right:2em; margin-top: 1em; margin-bottom:1em;"><syntaxhighlight lang="java">
// Open an accessor to an existing binary file
FileVariantAccessor fa = Accessors.openAccessor(file);
RecordAccessor ra = fa.getContentAccessor();

// Read the first field (x)
Double x = (Double) ra.getFieldValue(0, Bindings.DOUBLE);
fa.close();
</syntaxhighlight></div>

'''Example:''' Java Accessor
<div style="background-color:#fffff7; border: 1px dashed #cccccc; padding: 2ex; margin-left:2em; margin-right:2em; margin-top: 1em; margin-bottom:1em;"><syntaxhighlight lang="java">
Binding binding = Bindings.getBinding(Rectangle2D.Double.class);
Rectangle2D rect = new Rectangle2D.Double(0,0, 10, 10);

// Open accessor to rectangle
RecordAccessor ra = Accessors.getAccessor(binding, rect);

// Set rectangle's first field (x) to 5.0
ra.setFieldValue(0, Bindings.DOUBLE, 5.0);
System.out.println( rect.getX() );
</syntaxhighlight></div>


==Accessor Reference==
Accessors can be opened to a sub-nodes with AccessorReference or by calling getAccessor. AccessorReference is a string of instances, either accessor type specific of LabelReferences. 
    ChildReference ref = ChildReference.compile(
      new NameReference("node"),
      new ComponentReference()
    );
    Accessor child = accessor.getComponent( ref );

    ChildReference ref = ChildReference.compile(
       new LabelReference("node"),
       new LabelReference("v")
    );
    Accessor child = accessor.getComponent( ref );

    ChildReference ref = ChildReference.create("n-node/v");
    Accessor child = accessor.getComponent( ref );

    ChildReference ref = ChildReference.create("node/v");
    Accessor child = accessor.getComponent( ref );

    VariantAccessor va = recordAccessor.getFieldAccessor("node");
    Accessor child = va.getValueAccessor();

==Listening mechanism==
Accessor offers a monitoring mechanism for the data model. 
There is an <code>[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/interestset/InterestSet.java|InterestSet]]</code> that is a description of a sub-tree that is to be monitored of the data model.
<code>[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/event/Event.java|Events]]</code> are objects that spawned on changes to the data model. Each event object is annotated with [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/accessor/reference/|reference path]] that is in relation to the node where the listener was placed.

Accessor Listeners use [[EventThread Pattern]] pattern.

=Utilities=

*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Datatypes.java|Datatypes]] is a facade class that has functions for handling Datatypes.
*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Bindings.java|Bindings]] is a facade class that has functions for handling Bindings.
*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Accessors.java|Accessors]] is a facade class that has functions for handling Accessors.
*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Files.java|Files]] has Read, Write and accessor functions.
*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Units.java|Units]] is a facade class that has functions for handling Engineering Units.
*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/Methods.java|Methods]] has Methods, Interfaces and RPC utility functions.

*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/util/binary/RandomAccessBinary.java|RandomAccessBinary]] is a interface for byte handling operations. In addition to basic primitive reading & writing, there are methods for grow, shrink, insert and remove. 
**[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/util/binary/BinaryFile.java|BinaryFile]] and [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/util/binary/BinaryMemory.java|BinaryMemory]] are corresponding file and memory implementations. 
**[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/util/binary/Blob.java|Blob]] is an implementation that represents a sub-region of a RandomAccessBinary. 

==Interface Types==
There are interfaces, method types and method type definitions. 
Interface type describes a software interface. It is a collection of methods type definitions. 
Method type is an unnamed function with the following properties : Response Type, Request Type and ErrorType; where Response Type is any Data Type, Request Type is a Record and Error Type is an Union.
Method type definition is nominal method description.

The respective Java classes are:
*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/method/Interface.java|Interface.java]] 
*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/method/MethodTypeDefinition.java|MethodTypeDefinition.java]]
*[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/method/MethodType.java|MethodType.java]]

In java InterfaceType description can be created with one of the following methods:
* Implementing InterfaceType
* Reading an Java Interface Class using reflection
    Interface it = new Interface( ... methodDefinitions );
    Interface it = getInterface( MyInterface.class );

[[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/method/MethodInterface.java|MethodInterface.java]] is a binding of an
Java Instance and an Interface Type. It decouples the method invocation from the object.

MethodInterface can be created with the following methods:
* Implementation
* Reflection
    MethodInterface mi   = new MethodInterface() {...}
    MethodInterface mi   = Datatypes.bindInterface( MyInterface.class, myObject );

Utilities <code>Datatypes.createProxy()</code> and <code>Datatypes.bindInterface()</code> adapt between MethodInterface and Java Instance.
    MethodInterface mi   = Datatypes.bindInterface( MyInterface.class, myObject );
    MyInterface myObject = Datatypes.createProxy( MyInterface.class, mi );

==Remote Procedure Call==
Utilities [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/method/Server.java|Server.java]] and [[svn:foundation/databoard/trunk/org.simantics.databoard/src/org/simantics/databoard/method/Client.java|Client.java]] put MethodInterface over TCP Socket. 
    Server myServer      = new Server(8192, mi);
    MethodInterface mi   = new Client("localhost", 8192);

MethodInterface with Server and Client together forms a Remote Procedure Call (RPC) mechanism.
    public interface MyInterface { String helloWorld(String msg); }
    
    [Server]
    MethodInterface mi   = Methods.bindInterface( MyInterface.class, myObject );
    Server myServer      = new Server(8192, mi);
    
    [Client]
    MethodInterface mi   = new Client("localhost", 8192);
    MyInterface myObject = Methods.createProxy( MyInterface.class, mi );

[[Category: Data management & Experiment Control]]