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JSON.hx
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JSON.hx
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// Automatically generated Godot externs: DO NOT EDIT
// MIT licensed, see LICENSE.md
package godot;
import cs.system.*;
/**
Helper class for parsing JSON data. For usage example and other important hints, see `godot.JSONParseResult`.
**/
@:libType
@:csNative
@:native("Godot.JSON")
@:autoBuild(godot.Godot.buildUserClass())
extern class JSON {
@:native("Singleton")
public static var SINGLETON(default, never):godot.Object;
#if doc_gen
/**
Converts a `Variant` var to JSON text and returns the result. Useful for serializing data to store or send over the network.
Note: The JSON specification does not define integer or float types, but only a number type. Therefore, converting a Variant to JSON text will convert all numerical values to `Single` types.
The `indent` parameter controls if and how something is indented, the string used for this parameter will be used where there should be an indent in the output, even spaces like `" "` will work. `\t` and `\n` can also be used for a tab indent, or to make a newline for each indent respectively.
Example output:
```
## JSON.print(my_dictionary)
{"name":"my_dictionary","version":"1.0.0","entities":[{"name":"entity_0","value":"value_0"},{"name":"entity_1","value":"value_1"}]}
## JSON.print(my_dictionary, "\t")
{
"name": "my_dictionary",
"version": "1.0.0",
"entities": [
{
"name": "entity_0",
"value": "value_0"
},
{
"name": "entity_1",
"value": "value_1"
}
]
}
## JSON.print(my_dictionary, "...")
{
..."name": "my_dictionary",
..."version": "1.0.0",
..."entities": [
......{
........."name": "entity_0",
........."value": "value_0"
......},
......{
........."name": "entity_1",
........."value": "value_1"
......}
...]
}
```
**/
@:native("Print")
public static function print(value:Dynamic, ?indent:std.String, ?sortKeys:Bool):std.String;
#else
/**
Converts a `Variant` var to JSON text and returns the result. Useful for serializing data to store or send over the network.
Note: The JSON specification does not define integer or float types, but only a number type. Therefore, converting a Variant to JSON text will convert all numerical values to `Single` types.
The `indent` parameter controls if and how something is indented, the string used for this parameter will be used where there should be an indent in the output, even spaces like `" "` will work. `\t` and `\n` can also be used for a tab indent, or to make a newline for each indent respectively.
Example output:
```
## JSON.print(my_dictionary)
{"name":"my_dictionary","version":"1.0.0","entities":[{"name":"entity_0","value":"value_0"},{"name":"entity_1","value":"value_1"}]}
## JSON.print(my_dictionary, "\t")
{
"name": "my_dictionary",
"version": "1.0.0",
"entities": [
{
"name": "entity_0",
"value": "value_0"
},
{
"name": "entity_1",
"value": "value_1"
}
]
}
## JSON.print(my_dictionary, "...")
{
..."name": "my_dictionary",
..."version": "1.0.0",
..."entities": [
......{
........."name": "entity_0",
........."value": "value_0"
......},
......{
........."name": "entity_1",
........."value": "value_1"
......}
...]
}
```
**/
@:native("Print")
public static overload function print(value:Dynamic):std.String;
/**
Converts a `Variant` var to JSON text and returns the result. Useful for serializing data to store or send over the network.
Note: The JSON specification does not define integer or float types, but only a number type. Therefore, converting a Variant to JSON text will convert all numerical values to `Single` types.
The `indent` parameter controls if and how something is indented, the string used for this parameter will be used where there should be an indent in the output, even spaces like `" "` will work. `\t` and `\n` can also be used for a tab indent, or to make a newline for each indent respectively.
Example output:
```
## JSON.print(my_dictionary)
{"name":"my_dictionary","version":"1.0.0","entities":[{"name":"entity_0","value":"value_0"},{"name":"entity_1","value":"value_1"}]}
## JSON.print(my_dictionary, "\t")
{
"name": "my_dictionary",
"version": "1.0.0",
"entities": [
{
"name": "entity_0",
"value": "value_0"
},
{
"name": "entity_1",
"value": "value_1"
}
]
}
## JSON.print(my_dictionary, "...")
{
..."name": "my_dictionary",
..."version": "1.0.0",
..."entities": [
......{
........."name": "entity_0",
........."value": "value_0"
......},
......{
........."name": "entity_1",
........."value": "value_1"
......}
...]
}
```
**/
@:native("Print")
public static overload function print(value:Dynamic, indent:std.String):std.String;
/**
Converts a `Variant` var to JSON text and returns the result. Useful for serializing data to store or send over the network.
Note: The JSON specification does not define integer or float types, but only a number type. Therefore, converting a Variant to JSON text will convert all numerical values to `Single` types.
The `indent` parameter controls if and how something is indented, the string used for this parameter will be used where there should be an indent in the output, even spaces like `" "` will work. `\t` and `\n` can also be used for a tab indent, or to make a newline for each indent respectively.
Example output:
```
## JSON.print(my_dictionary)
{"name":"my_dictionary","version":"1.0.0","entities":[{"name":"entity_0","value":"value_0"},{"name":"entity_1","value":"value_1"}]}
## JSON.print(my_dictionary, "\t")
{
"name": "my_dictionary",
"version": "1.0.0",
"entities": [
{
"name": "entity_0",
"value": "value_0"
},
{
"name": "entity_1",
"value": "value_1"
}
]
}
## JSON.print(my_dictionary, "...")
{
..."name": "my_dictionary",
..."version": "1.0.0",
..."entities": [
......{
........."name": "entity_0",
........."value": "value_0"
......},
......{
........."name": "entity_1",
........."value": "value_1"
......}
...]
}
```
**/
@:native("Print")
public static overload function print(value:Dynamic, indent:std.String, sortKeys:Bool):std.String;
#end
/**
Parses a JSON-encoded string and returns a `godot.JSONParseResult` containing the result.
**/
@:native("Parse")
public static function parse(json:std.String):godot.JSONParseResult;
}