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<h1>SuperObject</h1>
<h3>What is JSON ?</h3>
<p>
JSON (JavaScript Object Notation) is a lightweight data-interchange format.<br>
It is easy for humans to read and write. <br>
It is easy for machines to parse and generate. <br>
It is based on a subset of the JavaScript Programming Language,
Standard ECMA-262 3rd Edition - December 1999. <br>
JSON is a text format that is
completely language independent but uses conventions that are familiar to programmers.<br>
These properties make JSON an ideal data-interchange language.<br>
You can get more informations on <a href="http://www.json.org">json.org</a>.
<pre id="exCode">
{
"name": <span id="lit">"Henri Gourvest"</span>, <span id="cmt">/* this is a comment */</span>
"vip": true,
"telephones": [<span id="lit">"000000000"</span>, <span id="lit">"111111111111"</span>],
"age": 33,
"size": 1.83,
"adresses": [
{
"adress": <span id="lit">"blabla"</span>,
"city": <span id="lit">"Metz"</span>,
"pc": 57000
},
{
"adress": <span id="lit">"blabla"</span>,
"city": <span id="lit">"Nantes"</span>,
"pc": 44000
}
]
}
</pre>
<h3>Parsing a JSON data structure</h3>
<pre id="exCode">
<span id="keyw">var</span>
obj: ISuperObject;
<span id="keyw">begin</span>
obj := SO(<span id="lit">'{"foo": true}'</span>);
obj := TSuperObject.ParseString(<span id="lit">'{"foo": true}'</span>);
obj := TSuperObject.ParseStream(stream);
obj := TSuperObject.ParseFile(FileName);
<span id="keyw">end;</span>
</pre>
<h3>Accessing data</h3>
<p>
There isn't individual datastructure for each supported data types.<br>
They are all an object: the <b>ISuperObject</b>.
</p>
<pre id="exCode">
val := obj.AsString;
val := obj.AsInteger;
val := obj.AsBoolean;
val := obj.AsDouble;
val := obj.AsArray;
val := obj.AsObject;
val := obj.AsMethod;
</pre>
<h4>How to read a property value of an object ?</h4>
<pre id="exCode">
val := obj.AsObject.S[<span id="lit">'foo'</span>]; <span id="cmt">// get a string</span>
val := obj.AsObject.I[<span id="lit">'foo'</span>]; <span id="cmt">// get an Int64</span>
val := obj.AsObject.B[<span id="lit">'foo'</span>]; <span id="cmt">// get a Boolean</span>
val := obj.AsObject.D[<span id="lit">'foo'</span>]; <span id="cmt">// get a Double</span>
val := obj.AsObject.O[<span id="lit">'foo'</span>]; <span id="cmt">// get an Object (default)</span>
val := obj.AsObject.M[<span id="lit">'foo'</span>]; <span id="cmt">// get a Method</span>
val := obj.AsObject.N[<span id="lit">'foo'</span>]; <span id="cmt">// get a null object</span>
</pre>
<h4>How to read a value from an array ?</h4>
<pre id="exCode">
<span id="cmt">// the advanced way</span>
val := obj.AsArray.S[0]; <span id="cmt">// get a string</span>
val := obj.AsArray.I[0]; <span id="cmt">// get an Int64</span>
val := obj.AsArray.B[0]; <span id="cmt">// get a Boolean</span>
val := obj.AsArray.D[0]; <span id="cmt">// get a Double</span>
val := obj.AsArray.O[0]; <span id="cmt">// get an Object (default)</span>
val := obj.AsArray.M[0]; <span id="cmt">// get a Method</span>
val := obj.AsArray.N[0]; <span id="cmt">// get a null object</span>
</pre>
<h4>Using paths</h4>
<p>Using paths is a <b>very productive</b> method to find an object when you know where is it.<br>
This is some usage cases:
</p>
<pre id="exCode">
obj[<span id="lit">'foo'</span>]; <span id="cmt">// get a property</span>
obj[<span id="lit">'123'</span>]; <span id="cmt">// get an item array</span>
obj[<span id="lit">'foo.list'</span>]; <span id="cmt">// get a property from an object</span>
obj[<span id="lit">'foo[123]'</span>]; <span id="cmt">// get an item array from an object</span>
obj[<span id="lit">'foo(1,2,3)'</span>]; <span id="cmt">// call a method</span>
obj[<span id="lit">'foo[]'</span>] := value; <span id="cmt">// add an item array</span>
</pre>
<p>you also can encapsulate paths:</p>
<pre id="exCode">
obj := so(<span id="lit">'{"index": 1, "items": ["item 1", "item 2", "item 3"]}'</span>);
obj[<span id="lit">'items[index]'</span>] <span id="cmt">// return "item 2"</span>
</pre>
<p>or recreate a new data structure from another:</p>
<pre id="exCode">
obj := so(<span id="lit">'{"index": 1, "items": ["item 1", "item 2", "item 3"]}'</span>);
obj[<span id="lit">'{"item": items[index], "index": index}'</span>] <span id="cmt">// return {"item": "item 2", "index": 1}</span>
</pre>
<h3>Browsing data structure</h3>
<h4>Using Delphi enumerator.</h4>
<p>Using Delphi enumerator you can browse item's array or property's object value in the same maner.</p>
<pre id="exCode">
<span id="keyw">var</span>
item: ISuperObject;
<span id="keyw">begin</span>
<span id="keyw">for</span> item <span id="keyw">in</span> obj[<span id="lit">'items'</span>] <span id="keyw">do</span> ...
</pre>
<p>you can also browse the keys and values of an object like this:</p>
<pre id="exCode">
<span id="keyw">var</span>
item: TSuperAvlEntry;
<span id="keyw">begin</span>
<span id="keyw">for</span> item <span id="keyw">in</span> obj.AsObject <span id="keyw">do</span> ...
<span id="keyw">begin</span>
item.Name;
item.Value;
<span id="keyw">end</span>;
</pre>
<h4>Browsing object properties without enumerator</h4>
<pre id="exCode">
<span id="keyw">var</span>
item: TSuperObjectIter;
<span id="keyw">begin</span>
<span id="keyw">if</span> ObjectFindFirst(obj, item) <span id="keyw">then</span>
<span id="keyw">repeat</span>
item.key;
item.val;
<span id="keyw">until</span> <span id="keyw">not</span> ObjectFindNext(item);
ObjectFindClose(item);
</pre>
<h4>Browsing array items without enumerator</h4>
<pre id="exCode">
<span id="keyw">var</span>
item: Integer;
<span id="keyw">begin</span>
<span id="keyw">for</span> item := 0 <span id="keyw">to</span> obj.AsArray.Length - 1 <span id="keyw">do</span>
obj.AsArray[item]
</pre>
<h3>RTTI & marshalling in Delphi 2010</h3>
<pre id="exCode">
<span id="keyw">type</span>
TData = <span id="keyw">record</span>
str: string;
int: Integer;
bool: Boolean;
flt: Double;
<span id="keyw">end;</span>
<span id="keyw">var</span>
ctx: TSuperRttiContext;
data: TData;
obj: ISuperObject;
<span id="keyw">begin</span>
ctx := TSuperRttiContext.Create;
<span id="keyw">try</span>
data := ctx.AsType<TData>(SO(<span id="lit">'{str: "foo", int: 123, bool: true, flt: 1.23}'</span>));
obj := ctx.AsJson<TData>(data);
<span id="keyw">finally</span>
ctx.Free;
<span id="keyw">end;</span>
<span id="keyw">end;</span>
</pre>
<h3>Saving data</h3>
<pre id="exCode">
obj.AsJSon(options);
obj.SaveTo(stream);
obj.SaveTo(filename);
</pre>
<h3>Helpers</h3>
<pre id="exCode">
SO([<span id="lit">'prop1'</span>, true, <span id="lit">'prop2'</span>, 123]); <span id="cmt">// return an object {"prop1": true, "prop2": 123}</span>
SA([true, 123]); <span id="cmt">// return an array [true, 123]</span>
</pre>
<h3>Non canonical forms</h3>
The SuperObject is able to parse non canonical forms.
<pre id="exCode">
<span id="cmt">// unquoted identifiers</span>
SO(<span id="lit">'{foo: true}'</span>);
<span id="cmt">// unescaped or unquoted strings</span>
SO(<span id="lit">'{собственность: bla bla bla}'</span>);
<span id="cmt">// excadecimal</span>
SO(<span id="lit">'{foo: \xFF}'</span>);
</pre>
</body>
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