In order that ADL data structures serialized in one language can be deserialized in other, the mapping to serialized values must be consistent. Hence, ADL is a formal specification for serialized data.
Currently json serialization is implemented, as this gives best interoperability with browser based code. It is envisaged that in future binary serialization will allow be supported. Note also that json is also the format used for literals in the ADL language itself.
Each ADL primitive and declaration is serialized as specified in the rules below. The serialization for any ADL type can hence be determined by the repeated application of these rules.
Type | JSON Value |
---|---|
Int8,Int16,Int32 | number |
Word8,Word16,Word32 | number |
Int64,Word64 | number 1 |
Bool | true or false |
Void | null |
Float,Double | number |
String | string |
ByteArray | string containing base 64 encoded data |
Vector | json array containing serialized values of type T |
StringMap | A json object containing values of type T |
An ADL struct
has the obvious json representation - name a
json object where each field has the name of the ADL field, and
corresponding value is the serialized representation the ADL fields
type, ie
struct F
{
Int32 field1;
Vector<String> field2;
}
would allow the json value:
{
"field1" : 42,
"field2" : ["the","day","is","done"]
}
On deserialization, fields with declared defaults are allowed to be missing. Missing fields are populated with the default value.
An ADL union
is a sum type - only one discriminator can be active at any
time. The json serialisation depends on the type of discriminator. If
the type is Void
then the union is serialised as the discriminator name
(ie a json string). For any other type, the union value is serialised as
a json object with a single name /value pair: the name of the active
discriminator, and it's serialized value.
Hence
union F
{
Void empty;
Int32 field1;
Vector<String> field2;
}
could have any of the following serialised values:
"empty"
{ "field1" : 42 }
{ "field2" : ["the","day","is","done"] }
An ADL newtype
has exactly the same serialization as the
underlying type ie:
newtype ScopedName = Vector<String>;
would have a representation like
["org","adl","ast"]
Only monomophic values can be constructed, and hence actually be serialized. The json serialized values match the serialization of the generic type with type parameters fully substituted. ie with a definition
union Maybe<T>
{
T just;
Void nothing;
};
The following would be valid json values for a type Maybe<Vector<String>>
:
{ "nothing" : null }
{ "just" : ["Sydney","Melbourne","Darwin"] }
The field names in structs and unions can be annotated with SerializedName
to set the json field
name to differ from the name in the generated code. Hence
struct Point
{
@SerializedName "x"
Double xvalue;
@SerializedName "y"
Double yvalue;
};
would allow the json value { "x" : 5, "y" : 7 }
.
The json serialization scheme permits limited backwards compatibility. Fields can be added to structs provided the default value for those fields ensures compatibility. Discriminators may also be added to unions, provided that the default descriminator is not changed.
Footnotes
-
It's not clear that a json number is the best representation for 64 bit values. The [json specification][jsonspec] doesn't specify a precision for numbers, but javascript implementations typically represent all numbers as a double, which lacks the precision to represent all Int64 values. [jsonspec]:http://www.json.org/ ↩