JSON (JavaScript Object Notation) is a lightweight data-interchange format.
It is easy for humans to read and write.
It is easy for machines to parse and generate.
It is based on a subset of the JavaScript Programming Language, Standard ECMA-262 3rd Edition - December 1999.
JSON is a text format that is completely language independent but uses conventions that are familiar to programmers.
These properties make JSON an ideal data-interchange language.
You can get more informations on json.org.
{ "name": "Henri Gourvest", /* this is a comment */ "vip": true, "telephones": ["000000000", "111111111111"], "age": 33, "size": 1.83, "adresses": [ { "adress": "blabla", "city": "Metz", "pc": 57000 }, { "adress": "blabla", "city": "Nantes", "pc": 44000 } ] }
var obj: ISuperObject; begin obj := SO('{"foo": true}'); obj := TSuperObject.ParseString('{"foo": true}'); obj := TSuperObject.ParseStream(stream); obj := TSuperObject.ParseFile(FileName); end;
There isn't individual datastructure for each supported data types.
They are all an object: the ISuperObject.
val := obj.AsString; val := obj.AsInteger; val := obj.AsBoolean; val := obj.AsDouble; val := obj.AsArray; val := obj.AsObject; val := obj.AsMethod;
val := obj.AsObject.S['foo']; // get a string val := obj.AsObject.I['foo']; // get an Int64 val := obj.AsObject.B['foo']; // get a Boolean val := obj.AsObject.D['foo']; // get a Double val := obj.AsObject.O['foo']; // get an Object (default) val := obj.AsObject.M['foo']; // get a Method val := obj.AsObject.N['foo']; // get a null object
// the advanced way val := obj.AsArray.S[0]; // get a string val := obj.AsArray.I[0]; // get an Int64 val := obj.AsArray.B[0]; // get a Boolean val := obj.AsArray.D[0]; // get a Double val := obj.AsArray.O[0]; // get an Object (default) val := obj.AsArray.M[0]; // get a Method val := obj.AsArray.N[0]; // get a null object
Using paths is a very productive method to find an object when you know where is it.
This is some usage cases:
obj['foo']; // get a property obj['123']; // get an item array obj['foo.list']; // get a property from an object obj['foo[123]']; // get an item array from an object obj['foo(1,2,3)']; // call a method obj['foo[]'] := value; // add an item array
you also can encapsulate paths:
obj := so('{"index": 1, "items": ["item 1", "item 2", "item 3"]}'); obj['items[index]'] // return "item 2"
or recreate a new data structure from another:
obj := so('{"index": 1, "items": ["item 1", "item 2", "item 3"]}'); obj['{"item": items[index], "index": index}'] // return {"item": "item 2", "index": 1}
Using Delphi enumerator you can browse item's array or property's object value in the same maner.
var item: ISuperObject; begin for item in obj['items'] do ...
you can also browse the keys and values of an object like this:
var item: TSuperAvlEntry; begin for item in obj.AsObject do ... begin item.Name; item.Value; end;
var item: TSuperObjectIter; begin if ObjectFindFirst(obj, item) then repeat item.key; item.val; until not ObjectFindNext(item); ObjectFindClose(item);
var item: Integer; begin for item := 0 to obj.AsArray.Length - 1 do obj.AsArray[item]
type TData = record str: string; int: Integer; bool: Boolean; flt: Double; end; var ctx: TSuperRttiContext; data: TData; obj: ISuperObject; begin ctx := TSuperRttiContext.Create; try data := ctx.AsType(SO('{str: "foo", int: 123, bool: true, flt: 1.23}')); obj := ctx.AsJson(data); finally ctx.Free; end; end;
obj.AsJSon(options); obj.SaveTo(stream); obj.SaveTo(filename);
SO(['prop1', true, 'prop2', 123]); // return an object {"prop1": true, "prop2": 123} SA([true, 123]); // return an array [true, 123]
The SuperObject is able to parse non canonical forms.
// unquoted identifiers SO('{foo: true}'); // unescaped or unquoted strings SO('{собственность: bla bla bla}'); // excadecimal SO('{foo: \xFF}');