/*
* Copyright (C)2005-2019 Haxe Foundation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
package js;
import js.Syntax; // import it here so it's always available in the compiler
@:dox(hide)
class Boot {
static inline function isClass(o:Dynamic):Bool {
return untyped __define_feature__("js.Boot.isClass", o.__name__);
}
static inline function isInterface(o:Class<Dynamic>):Bool {
return untyped __define_feature__("js.Boot.isInterface", o.__isInterface__);
}
static inline function isEnum(e:Dynamic):Bool {
return untyped __define_feature__("js.Boot.isEnum", e.__ename__);
}
@:pure static function getClass(o:Null<Dynamic>):Null<Dynamic> {
if (o == null) {
return null;
} else if (Std.isOfType(o, Array)) {
return Array;
} else {
var cl = untyped __define_feature__("js.Boot.getClass", o.__class__);
if (cl != null)
return cl;
var name = __nativeClassName(o);
if (name != null)
return __resolveNativeClass(name);
return null;
}
}
@:ifFeature("has_enum")
private static function __string_rec(o, s:String) {
untyped {
if (o == null)
return "null";
if (s.length >= 5)
return "<...>"; // too much deep recursion
var t = js.Syntax.typeof(o);
if (t == "function" && (isClass(o) || isEnum(o)))
t = "object";
switch (t) {
case "object":
#if !js_enums_as_arrays
__feature__("has_enum", if (o.__enum__) {
var e = $hxEnums[o.__enum__];
var con = e.__constructs__[o._hx_index];
var n = con._hx_name;
if (con.__params__) {
s += "\t";
return n + "(" + [for (p in (con.__params__ : Array<String>)) __string_rec(o[p], s)].join(",") + ")";
} else {
return n;
}
});
#end
if (js.Syntax.instanceof(o, Array)) {
#if js_enums_as_arrays
__feature__("has_enum", if (o.__enum__) {
if (o.length == 2)
return o[0];
var str = o[0] + "(";
s += "\t";
for (i in 2...o.length) {
if (i != 2)
str += "," + __string_rec(o[i], s);
else
str += __string_rec(o[i], s);
}
return str + ")";
});
#end
var str = "[";
s += "\t";
for (i in 0...o.length)
str += (if (i > 0) "," else "") + __string_rec(o[i], s);
str += "]";
return str;
}
var tostr;
try {
tostr = untyped o.toString;
} catch (e:Dynamic) {
// strange error on IE
return "???";
}
if (tostr != null && tostr != js.Syntax.code("Object.toString") && js.Syntax.typeof(tostr) == "function") {
var s2 = o.toString();
if (s2 != "[object Object]")
return s2;
}
var str = "{\n";
s += "\t";
var hasp = (o.hasOwnProperty != null);
var k:String = null;
js.Syntax.code("for( {0} in {1} ) {", k, o);
if (hasp && !o.hasOwnProperty(k))
js.Syntax.code("continue");
if (k == "prototype" || k == "__class__" || k == "__super__" || k == "__interfaces__" || k == "__properties__")
js.Syntax.code("continue");
if (str.length != 2)
str += ", \n";
str += s + k + " : " + __string_rec(o[k], s);
js.Syntax.code("}");
s = s.substring(1);
str += "\n" + s + "}";
return str;
case "function":
return "<function>";
case "string":
return o;
default:
return String(o);
}
}
}
@:pure private static function __interfLoop(cc:Dynamic, cl:Dynamic) {
if (cc == null)
return false;
if (cc == cl)
return true;
var intf:Dynamic = cc.__interfaces__;
if (intf != null
// ES6 classes inherit statics, so we want to avoid accessing inherited `__interfaces__`
#if (js_es >= 6) && (cc.__super__ == null || cc.__super__.__interfaces__ != intf) #end
) {
for (i in 0...intf.length) {
var i:Dynamic = intf[i];
if (i == cl || __interfLoop(i, cl))
return true;
}
}
return __interfLoop(cc.__super__, cl);
}
@:pure private static function __instanceof(o:Dynamic, cl:Dynamic) {
if (cl == null)
return false;
switch (cl) {
case Int:
return js.Syntax.typeof(o) == "number" && js.Syntax.strictEq(o | 0, o);
case Float:
return js.Syntax.typeof(o) == "number";
case Bool:
return js.Syntax.typeof(o) == "boolean";
case String:
return js.Syntax.typeof(o) == "string";
case Array:
return js.Syntax.instanceof(o, Array) #if js_enums_as_arrays && o.__enum__ == null #end;
case Dynamic:
return o != null;
default:
if (o != null) {
// Check if o is an instance of a Haxe class or a native JS object
if (js.Syntax.typeof(cl) == "function") {
if (__downcastCheck(o, cl))
return true;
} else if (js.Syntax.typeof(cl) == "object" && __isNativeObj(cl)) {
if (js.Syntax.instanceof(o, cl))
return true;
}
} else {
return false;
}
// do not use isClass/isEnum here
untyped __feature__("Class.*", if (cl == Class && o.__name__ != null) return true);
untyped __feature__("Enum.*", if (cl == Enum && o.__ename__ != null) return true);
#if js_enums_as_arrays
return o.__enum__ == cl;
#else
return untyped __feature__(
"has_enum",
if (o.__enum__ != null) ($hxEnums[o.__enum__]) == cl else false,
false
);
#end
}
}
static function __downcastCheck(o:Dynamic, cl:Class<Dynamic>):Bool {
return js.Syntax.instanceof(o, cl) || (isInterface(cl) && inline __implements(o, cl));
}
static function __implements(o:Dynamic, iface:Class<Dynamic>):Bool {
return __interfLoop(getClass(o), iface);
}
@:ifFeature("typed_cast") private static function __cast(o:Dynamic, t:Dynamic) {
if (o == null || __instanceof(o, t))
return o;
else
throw "Cannot cast " + Std.string(o) + " to " + Std.string(t);
}
static var __toStr:js.lib.Function;
static function __init__() {
Boot.__toStr = (cast {}).toString;
}
// get native JS [[Class]]
static function __nativeClassName(o:Dynamic):String {
var name:String = __toStr.call(o).slice(8, -1);
// exclude general Object and Function
// also exclude Math and JSON, because instanceof cannot be called on them
if (name == "Object" || name == "Function" || name == "Math" || name == "JSON")
return null;
return name;
}
// check for usable native JS object
static function __isNativeObj(o:Dynamic):Bool {
return __nativeClassName(o) != null;
}
// resolve native JS class in the global scope:
static function __resolveNativeClass(name:String) {
return js.Lib.global[cast name];
}
}