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GLib = imports.gi.GLib;
(function() {
/* Variant Sugar
* Provide commodities methods to convert Variant from/to javascript object.
* variant.toJS() : returns a javascript object representing the Variant
# @variant
* Variant.new(signature, value): returns a GVariant structure representing
* the javascript object @value
*
* This implementation uses json-glib's json <-> variant conversion facilities
* if presents and fallback to a javascript implementation otherwise.
* This javascript implementation is imported from gjs with modification for
* JSCore compatibility (Copyright 2011 Giovanni Campagna,
* see gjs/override/GLib.js for licence)
*/
// Use json-glib's json <-> variant conversion if present.
// Defaults to javascript code imported from gjs otherwise.
GLib.Variant.prototype.to_js = function(signature) {
return _toJS(signature, this);
}
var toVariant = _toVariant;
try {
JSONGLib = imports.gi.Json;
}
catch (e) {}
if (JSONGLib && JSONGLib.gvariant_serialize_data)
{
GLib.Variant.prototype.to_js = function(signature) {
return _toJSNative(signature, this);
}
toVariant = _toVariantNative;
}
GLib.Variant.new = function (value, sig) {
var signature = Array.prototype.slice.call(sig);
if (signature.length != 0)
throw new TypeError('Invalid GVariant signature (more than one single complete type)');
var variant = toVariant(signature, value);
return variant;
}
GLib.Variant.prototype.toString = function() {
return '[object variant of type "' + this.get_type_string() + '"]';
};
/// End Variant Sugar ///
}).apply();
function _toVariantNative(signature, object)
{
if (!object || object == '')
return null;
if (!signature || signature == '')
signature = null;
return JSONGLib.gvariant_deserialize_data (JSON.stringify (object),
-1, signature);
};
function _toJSNative(signature, variant)
{
if (!variant)
return;
var jsonStr = JSONGLib.gvariant_serialize_data (variant, signature);
if (!jsonStr)
return;
return JSON.parse (jsonStr);
};
// Code imported from gjs, modified for JSCore idoms.
// Copyright 2011 Giovanni Campagna (see gjs/override/GLib.js for licence)
const SIMPLE_TYPES = ['b', 'y', 'n', 'q', 'i', 'u', 'x', 't', 'h', 'd', 's', 'o', 'g'];
function _read_single_type(signature, forceSimple) {
var char = signature.shift();
var isSimple = false;
if (SIMPLE_TYPES.indexOf(char) == -1) {
if (forceSimple)
throw new TypeError('Invalid GVariant signature (a simple type was expected)');
} else
isSimple = true;
if (char == 'm' || char == 'a')
return [char].concat(_read_single_type(signature, false));
if (char == '{') {
var key = _read_single_type(signature, true);
var val = _read_single_type(signature, false);
var close = signature.shift();
if (close != '}')
throw new TypeError('Invalid GVariant signature for type DICT_ENTRY (expected "}"');
return [char].concat(key, val, close);
}
if (char == '(') {
var res = [char];
while (true) {
if (signature.length == 0)
throw new TypeError('Invalid GVariant signature for type TUPLE (expected ")")');
var next = signature[0];
if (next == ')') {
signature.shift();
return res.concat(next);
}
var el = _read_single_type(signature);
res = res.concat(el);
}
}
// Valid types are simple types, arrays, maybes, tuples, dictionary entries and variants
if (!isSimple && char != 'v')
throw new TypeError('Invalid GVariant signature (' + char + ' is not a valid type)');
return [char];
}
function _toVariant(signature, value) {
if (signature.length == 0)
throw new TypeError('GVariant signature cannot be empty');
var char = signature.shift();
switch (char) {
case 'b':
return GLib.Variant.new_boolean(value);
case 'y':
return GLib.Variant.new_byte(value);
case 'n':
return GLib.Variant.new_int16(value);
case 'q':
return GLib.Variant.new_uint16(value);
case 'i':
return GLib.Variant.new_int32(value);
case 'u':
return GLib.Variant.new_uint32(value);
case 'x':
return GLib.Variant.new_int64(value);
case 't':
return GLib.Variant.new_uint64(value);
case 'h':
return GLib.Variant.new_handle(value);
case 'd':
return GLib.Variant.new_double(value);
case 's':
return GLib.Variant.new_string(value);
case 'o':
return GLib.Variant.new_object_path(value);
case 'g':
return GLib.Variant.new_signature(value);
case 'v':
return GLib.Variant.new_variant(value);
case 'm':
if (value != null)
return GLib.Variant.new_maybe(null, _pack_variant(signature, value))
else
return GLib.Variant.new_maybe(GLib.VariantType.new(_read_single_type(signature, false).join('')), null);
case 'a':
var arrayType = _read_single_type(signature, false);
if (arrayType[0] == 's') {
// special case for array of strings
return GLib.Variant.new_strv(value, value.length);
}
if (arrayType[0] == 'y') {
// special case for array of bytes
return GLib.Variant.new_bytestring(value);
}
if (arrayType[0] == 'a' && arrayType[1] == 'y') {
// special case for array of array of bytes
return GLib.Variant.new_bytestring_array(value, value.length);
}
var arrayValue = [];
if (arrayType[0] == '{') {
// special case for dictionaries
for (var key in value) {
var copy = [].concat(arrayType);
var child = _pack_variant(copy, [key, value[key]]);
arrayValue.push(child);
}
} else {
for (var i = 0; i < value.length; i++) {
var copy = [].concat(arrayType);
var child = _pack_variant(copy, value[i]);
arrayValue.push(child);
}
}
return GLib.Variant.new_array(GLib.VariantType.new(arrayType.join('')), arrayValue, arrayValue.length);
case '(':
var children = [ ];
for (var i = 0; i < value.length; i++) {
var next = signature[0];
if (next == ')')
break;
children.push(_pack_variant(signature, value[i]));
}
if (signature[0] != ')')
throw new TypeError('Invalid GVariant signature for type TUPLE (expected ")")');
signature.shift();
return GLib.Variant.new_tuple(children, children.length);
case '{':
var key = _pack_variant(signature, value[0]);
var child = _pack_variant(signature, value[1]);
if (signature[0] != '}')
throw new TypeError('Invalid GVariant signature for type DICT_ENTRY (expected "}")');
signature.shift();
return GLib.Variant.new_dict_entry(key, child);
default:
throw new TypeError('Invalid GVariant signature (unexpected character ' + char + ')');
}
}
function _toJS(signature, variant) {
switch (String.fromCharCode(variant.classify())) {
case 'b':
return variant.get_boolean();
case 'y':
return variant.get_byte();
case 'n':
return variant.get_int16();
case 'q':
return variant.get_uint16();
case 'i':
return variant.get_int32();
case 'u':
return variant.get_uint32();
case 'x':
return variant.get_int64();
case 't':
return variant.get_uint64();
case 'h':
return variant.get_handle();
case 'd':
return variant.get_double();
case 'o':
case 'g':
case 's':
// g_variant_get_string has length as out argument
return variant.get_string();
case 'v':
return variant.get_variant();
case 'm':
var val = variant.get_maybe();
return _toJS(val);
case 'a':
if (variant.is_container()) {
// special case containers
var ret = { };
var nElements = variant.n_children();
for (var i = 0; i < nElements; i++) {
// always unpack the dictionary entry, and always unpack
// the key (or it cannot be added as a key)
var val = _toJS(variant.get_child_value(i));
var key = val[0].classify ? _toJS(val[0]) : val[0];
ret[key] = val[1] && val[1].classify ? _toJS(val[1]) : val[1]
}
return ret;
}
// fall through
case '(':
case '{':
var ret = [ ];
var nElements = variant.n_children();
for (var i = 0; i < nElements; i++) {
var val = variant.get_child_value(i);
ret.push(_toJS(val));
}
return ret;
}
throw new Error('Assertion failure: this code should not be reached');
}
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