#include "scripting/js-bindings/auto/jsb_cocos2dx_physics3d_auto.hpp" #if CC_USE_3D_PHYSICS && CC_ENABLE_BULLET_INTEGRATION #include "scripting/js-bindings/manual/cocos2d_specifics.hpp" #include "physics3d/CCPhysics3D.h" #include "scripting/js-bindings/manual/physics3d/jsb_cocos2dx_physics3d_manual.h" template static bool dummy_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS_ReportError(cx, "Constructor for the requested class is not available, please refer to the API reference."); return false; } static bool empty_constructor(JSContext *cx, uint32_t argc, jsval *vp) { return false; } static bool js_is_native_obj(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); args.rval().setBoolean(true); return true; } JSClass *jsb_cocos2d_Physics3DShape_class; JSObject *jsb_cocos2d_Physics3DShape_prototype; bool js_cocos2dx_physics3d_Physics3DShape_initConvexHull(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DShape* cobj = (cocos2d::Physics3DShape *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initConvexHull : Invalid Native Object"); if (argc == 2) { const cocos2d::Vec3* arg0 = nullptr; int arg1 = 0; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (const cocos2d::Vec3*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); ok &= jsval_to_int32(cx, args.get(1), (int32_t *)&arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initConvexHull : Error processing arguments"); bool ret = cobj->initConvexHull(arg0, arg1); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_initConvexHull : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DShape_getbtShape(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DShape* cobj = (cocos2d::Physics3DShape *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DShape_getbtShape : Invalid Native Object"); if (argc == 0) { btCollisionShape* ret = cobj->getbtShape(); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (btCollisionShape*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_getbtShape : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DShape_initSphere(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DShape* cobj = (cocos2d::Physics3DShape *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initSphere : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initSphere : Error processing arguments"); bool ret = cobj->initSphere(arg0); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_initSphere : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DShape_initBox(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DShape* cobj = (cocos2d::Physics3DShape *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initBox : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initBox : Error processing arguments"); bool ret = cobj->initBox(arg0); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_initBox : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DShape_initCapsule(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DShape* cobj = (cocos2d::Physics3DShape *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initCapsule : Invalid Native Object"); if (argc == 2) { double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initCapsule : Error processing arguments"); bool ret = cobj->initCapsule(arg0, arg1); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_initCapsule : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DShape_initCylinder(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DShape* cobj = (cocos2d::Physics3DShape *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initCylinder : Invalid Native Object"); if (argc == 2) { double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_initCylinder : Error processing arguments"); bool ret = cobj->initCylinder(arg0, arg1); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_initCylinder : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DShape_getShapeType(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DShape* cobj = (cocos2d::Physics3DShape *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DShape_getShapeType : Invalid Native Object"); if (argc == 0) { int ret = (int)cobj->getShapeType(); JS::RootedValue jsret(cx); jsret = int32_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_getShapeType : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DShape_createBox(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_createBox : Error processing arguments"); auto ret = cocos2d::Physics3DShape::createBox(arg0); js_type_class_t *typeClass = js_get_type_from_native(ret); JS::RootedObject jsret(cx, jsb_ref_autoreleased_create_jsobject(cx, ret, typeClass, "cocos2d::Physics3DShape")); args.rval().set(OBJECT_TO_JSVAL(jsret)); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_createBox : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DShape_createCylinder(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; if (argc == 2) { double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_createCylinder : Error processing arguments"); auto ret = cocos2d::Physics3DShape::createCylinder(arg0, arg1); js_type_class_t *typeClass = js_get_type_from_native(ret); JS::RootedObject jsret(cx, jsb_ref_autoreleased_create_jsobject(cx, ret, typeClass, "cocos2d::Physics3DShape")); args.rval().set(OBJECT_TO_JSVAL(jsret)); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_createCylinder : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DShape_createConvexHull(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; if (argc == 2) { const cocos2d::Vec3* arg0 = nullptr; int arg1 = 0; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (const cocos2d::Vec3*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); ok &= jsval_to_int32(cx, args.get(1), (int32_t *)&arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_createConvexHull : Error processing arguments"); auto ret = cocos2d::Physics3DShape::createConvexHull(arg0, arg1); js_type_class_t *typeClass = js_get_type_from_native(ret); JS::RootedObject jsret(cx, jsb_ref_autoreleased_create_jsobject(cx, ret, typeClass, "cocos2d::Physics3DShape")); args.rval().set(OBJECT_TO_JSVAL(jsret)); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_createConvexHull : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DShape_createCapsule(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; if (argc == 2) { double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_createCapsule : Error processing arguments"); auto ret = cocos2d::Physics3DShape::createCapsule(arg0, arg1); js_type_class_t *typeClass = js_get_type_from_native(ret); JS::RootedObject jsret(cx, jsb_ref_autoreleased_create_jsobject(cx, ret, typeClass, "cocos2d::Physics3DShape")); args.rval().set(OBJECT_TO_JSVAL(jsret)); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_createCapsule : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DShape_createSphere(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DShape_createSphere : Error processing arguments"); auto ret = cocos2d::Physics3DShape::createSphere(arg0); js_type_class_t *typeClass = js_get_type_from_native(ret); JS::RootedObject jsret(cx, jsb_ref_autoreleased_create_jsobject(cx, ret, typeClass, "cocos2d::Physics3DShape")); args.rval().set(OBJECT_TO_JSVAL(jsret)); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DShape_createSphere : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DShape_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3DShape* cobj = new (std::nothrow) cocos2d::Physics3DShape(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3DShape")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } void js_register_cocos2dx_physics3d_Physics3DShape(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DShape_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DShape_class->name = "Physics3DShape"; jsb_cocos2d_Physics3DShape_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DShape_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DShape_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DShape_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DShape_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DShape_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DShape_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DShape_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("initConvexHull", js_cocos2dx_physics3d_Physics3DShape_initConvexHull, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getbtShape", js_cocos2dx_physics3d_Physics3DShape_getbtShape, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("initSphere", js_cocos2dx_physics3d_Physics3DShape_initSphere, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("initBox", js_cocos2dx_physics3d_Physics3DShape_initBox, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("initCapsule", js_cocos2dx_physics3d_Physics3DShape_initCapsule, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("initCylinder", js_cocos2dx_physics3d_Physics3DShape_initCylinder, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getShapeType", js_cocos2dx_physics3d_Physics3DShape_getShapeType, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("createBox", js_cocos2dx_physics3d_Physics3DShape_createBox, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("createCylinder", js_cocos2dx_physics3d_Physics3DShape_createCylinder, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("createConvexHull", js_cocos2dx_physics3d_Physics3DShape_createConvexHull, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("createCapsule", js_cocos2dx_physics3d_Physics3DShape_createCapsule, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("createSphere", js_cocos2dx_physics3d_Physics3DShape_createSphere, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; jsb_cocos2d_Physics3DShape_prototype = JS_InitClass( cx, global, JS::NullPtr(), jsb_cocos2d_Physics3DShape_class, js_cocos2dx_physics3d_Physics3DShape_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DShape_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DShape")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DShape_class, proto, JS::NullPtr()); } JSClass *jsb_cocos2d_Physics3DObject_class; JSObject *jsb_cocos2d_Physics3DObject_prototype; bool js_cocos2dx_physics3d_Physics3DObject_setUserData(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_setUserData : Invalid Native Object"); if (argc == 1) { void* arg0 = nullptr; #pragma warning NO CONVERSION TO NATIVE FOR void* ok = false; JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DObject_setUserData : Error processing arguments"); cobj->setUserData(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_setUserData : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DObject_getUserData(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_getUserData : Invalid Native Object"); if (argc == 0) { void* ret = cobj->getUserData(); JS::RootedValue jsret(cx); #pragma warning NO CONVERSION FROM NATIVE FOR void*; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_getUserData : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DObject_getObjType(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_getObjType : Invalid Native Object"); if (argc == 0) { int ret = (int)cobj->getObjType(); JS::RootedValue jsret(cx); jsret = int32_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_getObjType : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DObject_setPhysicsWorld(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_setPhysicsWorld : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DWorld* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DWorld*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DObject_setPhysicsWorld : Error processing arguments"); cobj->setPhysicsWorld(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_setPhysicsWorld : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DObject_getWorldTransform(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_getWorldTransform : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getWorldTransform(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_getWorldTransform : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DObject_getPhysicsWorld(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_getPhysicsWorld : Invalid Native Object"); if (argc == 0) { cocos2d::Physics3DWorld* ret = cobj->getPhysicsWorld(); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DWorld*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_getPhysicsWorld : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DObject_setMask(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_setMask : Invalid Native Object"); if (argc == 1) { unsigned int arg0 = 0; ok &= jsval_to_uint32(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DObject_setMask : Error processing arguments"); cobj->setMask(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_setMask : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DObject_getCollisionCallback(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_getCollisionCallback : Invalid Native Object"); if (argc == 0) { const std::function& ret = cobj->getCollisionCallback(); JS::RootedValue jsret(cx); #pragma warning NO CONVERSION FROM NATIVE FOR std::function; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_getCollisionCallback : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DObject_getMask(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_getMask : Invalid Native Object"); if (argc == 0) { unsigned int ret = cobj->getMask(); JS::RootedValue jsret(cx); jsret = uint32_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_getMask : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DObject_needCollisionCallback(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DObject* cobj = (cocos2d::Physics3DObject *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DObject_needCollisionCallback : Invalid Native Object"); if (argc == 0) { bool ret = cobj->needCollisionCallback(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DObject_needCollisionCallback : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } void js_register_cocos2dx_physics3d_Physics3DObject(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DObject_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DObject_class->name = "Physics3DObject"; jsb_cocos2d_Physics3DObject_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DObject_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DObject_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DObject_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DObject_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DObject_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DObject_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DObject_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("setUserData", js_cocos2dx_physics3d_Physics3DObject_setUserData, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUserData", js_cocos2dx_physics3d_Physics3DObject_getUserData, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getObjType", js_cocos2dx_physics3d_Physics3DObject_getObjType, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setPhysicsWorld", js_cocos2dx_physics3d_Physics3DObject_setPhysicsWorld, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getWorldTransform", js_cocos2dx_physics3d_Physics3DObject_getWorldTransform, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getPhysicsWorld", js_cocos2dx_physics3d_Physics3DObject_getPhysicsWorld, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setMask", js_cocos2dx_physics3d_Physics3DObject_setMask, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getCollisionCallback", js_cocos2dx_physics3d_Physics3DObject_getCollisionCallback, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getMask", js_cocos2dx_physics3d_Physics3DObject_getMask, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("needCollisionCallback", js_cocos2dx_physics3d_Physics3DObject_needCollisionCallback, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JSFunctionSpec *st_funcs = NULL; jsb_cocos2d_Physics3DObject_prototype = JS_InitClass( cx, global, JS::NullPtr(), jsb_cocos2d_Physics3DObject_class, empty_constructor, 0, properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DObject_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DObject")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DObject_class, proto, JS::NullPtr()); } JSClass *jsb_cocos2d_Physics3DRigidBody_class; JSObject *jsb_cocos2d_Physics3DRigidBody_prototype; bool js_cocos2dx_physics3d_Physics3DRigidBody_setGravity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setGravity : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setGravity : Error processing arguments"); cobj->setGravity(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setGravity : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getFriction(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getFriction : Invalid Native Object"); if (argc == 0) { double ret = cobj->getFriction(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getFriction : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setAngularFactor(JSContext *cx, uint32_t argc, jsval *vp) { bool ok = true; cocos2d::Physics3DRigidBody* cobj = nullptr; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx); obj.set(args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : nullptr); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setAngularFactor : Invalid Native Object"); do { if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); if (!ok) { ok = true; break; } cobj->setAngularFactor(arg0); args.rval().setUndefined(); return true; } } while(0); do { if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); if (!ok) { ok = true; break; } cobj->setAngularFactor(arg0); args.rval().setUndefined(); return true; } } while(0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setAngularFactor : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_addConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_addConstraint : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DConstraint* arg0 = 0; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DConstraint*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_addConstraint : Error processing arguments"); cobj->addConstraint(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_addConstraint : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getRigidBody(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getRigidBody : Invalid Native Object"); if (argc == 0) { btRigidBody* ret = cobj->getRigidBody(); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (btRigidBody*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getRigidBody : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getTotalForce(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getTotalForce : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getTotalForce(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getTotalForce : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getConstraintCount(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getConstraintCount : Invalid Native Object"); if (argc == 0) { unsigned int ret = cobj->getConstraintCount(); JS::RootedValue jsret(cx); jsret = uint32_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getConstraintCount : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralForce(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralForce : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralForce : Error processing arguments"); cobj->applyCentralForce(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralForce : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setMassProps(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setMassProps : Invalid Native Object"); if (argc == 2) { double arg0 = 0; cocos2d::Vec3 arg1; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= jsval_to_vector3(cx, args.get(1), &arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setMassProps : Error processing arguments"); cobj->setMassProps(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setMassProps : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setFriction(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setFriction : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setFriction : Error processing arguments"); cobj->setFriction(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setFriction : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setKinematic(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setKinematic : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setKinematic : Error processing arguments"); cobj->setKinematic(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setKinematic : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setDamping(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setDamping : Invalid Native Object"); if (argc == 2) { double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setDamping : Error processing arguments"); cobj->setDamping(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setDamping : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_applyImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyImpulse : Invalid Native Object"); if (argc == 2) { cocos2d::Vec3 arg0; cocos2d::Vec3 arg1; ok &= jsval_to_vector3(cx, args.get(0), &arg0); ok &= jsval_to_vector3(cx, args.get(1), &arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyImpulse : Error processing arguments"); cobj->applyImpulse(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_applyImpulse : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_isKinematic(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_isKinematic : Invalid Native Object"); if (argc == 0) { bool ret = cobj->isKinematic(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_isKinematic : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_applyTorque(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyTorque : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyTorque : Error processing arguments"); cobj->applyTorque(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_applyTorque : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setCcdMotionThreshold(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setCcdMotionThreshold : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setCcdMotionThreshold : Error processing arguments"); cobj->setCcdMotionThreshold(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setCcdMotionThreshold : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setRollingFriction(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setRollingFriction : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setRollingFriction : Error processing arguments"); cobj->setRollingFriction(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setRollingFriction : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getCcdMotionThreshold(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getCcdMotionThreshold : Invalid Native Object"); if (argc == 0) { double ret = cobj->getCcdMotionThreshold(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getCcdMotionThreshold : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getLinearFactor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getLinearFactor : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getLinearFactor(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getLinearFactor : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_applyDamping(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyDamping : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyDamping : Error processing arguments"); cobj->applyDamping(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_applyDamping : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getAngularVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getAngularVelocity : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getAngularVelocity(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getAngularVelocity : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_init(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_init : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DRigidBodyDes* arg0 = nullptr; cocos2d::Physics3DRigidBodyDes tempObj;arg0=&tempObj;ok &= jsval_to_physics3DRigidBodyDes(cx, args.get(0), arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_init : Error processing arguments"); bool ret = cobj->init(arg0); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_init : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_applyTorqueImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyTorqueImpulse : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyTorqueImpulse : Error processing arguments"); cobj->applyTorqueImpulse(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_applyTorqueImpulse : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setActive(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setActive : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setActive : Error processing arguments"); cobj->setActive(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setActive : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setLinearFactor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setLinearFactor : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setLinearFactor : Error processing arguments"); cobj->setLinearFactor(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setLinearFactor : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setLinearVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setLinearVelocity : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setLinearVelocity : Error processing arguments"); cobj->setLinearVelocity(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setLinearVelocity : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getLinearVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getLinearVelocity : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getLinearVelocity(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getLinearVelocity : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setCcdSweptSphereRadius(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setCcdSweptSphereRadius : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setCcdSweptSphereRadius : Error processing arguments"); cobj->setCcdSweptSphereRadius(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setCcdSweptSphereRadius : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_applyForce(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyForce : Invalid Native Object"); if (argc == 2) { cocos2d::Vec3 arg0; cocos2d::Vec3 arg1; ok &= jsval_to_vector3(cx, args.get(0), &arg0); ok &= jsval_to_vector3(cx, args.get(1), &arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyForce : Error processing arguments"); cobj->applyForce(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_applyForce : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setAngularVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setAngularVelocity : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setAngularVelocity : Error processing arguments"); cobj->setAngularVelocity(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setAngularVelocity : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralImpulse : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralImpulse : Error processing arguments"); cobj->applyCentralImpulse(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralImpulse : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getGravity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getGravity : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getGravity(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getGravity : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getRollingFriction(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getRollingFriction : Invalid Native Object"); if (argc == 0) { double ret = cobj->getRollingFriction(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getRollingFriction : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setCenterOfMassTransform(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setCenterOfMassTransform : Invalid Native Object"); if (argc == 1) { cocos2d::Mat4 arg0; ok &= jsval_to_matrix(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setCenterOfMassTransform : Error processing arguments"); cobj->setCenterOfMassTransform(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setCenterOfMassTransform : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setInvInertiaDiagLocal(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setInvInertiaDiagLocal : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setInvInertiaDiagLocal : Error processing arguments"); cobj->setInvInertiaDiagLocal(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setInvInertiaDiagLocal : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_removeConstraint(JSContext *cx, uint32_t argc, jsval *vp) { bool ok = true; cocos2d::Physics3DRigidBody* cobj = nullptr; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx); obj.set(args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : nullptr); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_removeConstraint : Invalid Native Object"); do { if (argc == 1) { unsigned int arg0 = 0; ok &= jsval_to_uint32(cx, args.get(0), &arg0); if (!ok) { ok = true; break; } cobj->removeConstraint(arg0); args.rval().setUndefined(); return true; } } while(0); do { if (argc == 1) { cocos2d::Physics3DConstraint* arg0 = 0; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DConstraint*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cobj->removeConstraint(arg0); args.rval().setUndefined(); return true; } } while(0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_removeConstraint : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getTotalTorque(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getTotalTorque : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getTotalTorque(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getTotalTorque : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getInvMass(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getInvMass : Invalid Native Object"); if (argc == 0) { double ret = cobj->getInvMass(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getInvMass : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getConstraint : Invalid Native Object"); if (argc == 1) { unsigned int arg0 = 0; ok &= jsval_to_uint32(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getConstraint : Error processing arguments"); cocos2d::Physics3DConstraint* ret = cobj->getConstraint(arg0); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getConstraint : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getRestitution(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getRestitution : Invalid Native Object"); if (argc == 0) { double ret = cobj->getRestitution(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getRestitution : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getCcdSweptSphereRadius(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getCcdSweptSphereRadius : Invalid Native Object"); if (argc == 0) { double ret = cobj->getCcdSweptSphereRadius(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getCcdSweptSphereRadius : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getHitFraction(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getHitFraction : Invalid Native Object"); if (argc == 0) { double ret = cobj->getHitFraction(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getHitFraction : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getAngularDamping(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getAngularDamping : Invalid Native Object"); if (argc == 0) { double ret = cobj->getAngularDamping(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getAngularDamping : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getInvInertiaDiagLocal(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getInvInertiaDiagLocal : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getInvInertiaDiagLocal(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getInvInertiaDiagLocal : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getCenterOfMassTransform(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getCenterOfMassTransform : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getCenterOfMassTransform(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getCenterOfMassTransform : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getAngularFactor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getAngularFactor : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getAngularFactor(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getAngularFactor : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setRestitution(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setRestitution : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setRestitution : Error processing arguments"); cobj->setRestitution(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setRestitution : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_setHitFraction(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setHitFraction : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_setHitFraction : Error processing arguments"); cobj->setHitFraction(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_setHitFraction : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_getLinearDamping(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DRigidBody* cobj = (cocos2d::Physics3DRigidBody *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DRigidBody_getLinearDamping : Invalid Native Object"); if (argc == 0) { double ret = cobj->getLinearDamping(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DRigidBody_getLinearDamping : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DRigidBody_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3DRigidBody* cobj = new (std::nothrow) cocos2d::Physics3DRigidBody(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3DRigidBody")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } extern JSObject *jsb_cocos2d_Physics3DObject_prototype; void js_register_cocos2dx_physics3d_Physics3DRigidBody(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DRigidBody_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DRigidBody_class->name = "Physics3DRigidBody"; jsb_cocos2d_Physics3DRigidBody_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DRigidBody_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DRigidBody_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DRigidBody_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DRigidBody_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DRigidBody_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DRigidBody_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DRigidBody_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("setGravity", js_cocos2dx_physics3d_Physics3DRigidBody_setGravity, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getFriction", js_cocos2dx_physics3d_Physics3DRigidBody_getFriction, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setAngularFactor", js_cocos2dx_physics3d_Physics3DRigidBody_setAngularFactor, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("addConstraint", js_cocos2dx_physics3d_Physics3DRigidBody_addConstraint, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRigidBody", js_cocos2dx_physics3d_Physics3DRigidBody_getRigidBody, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getTotalForce", js_cocos2dx_physics3d_Physics3DRigidBody_getTotalForce, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getConstraintCount", js_cocos2dx_physics3d_Physics3DRigidBody_getConstraintCount, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("applyCentralForce", js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralForce, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setMassProps", js_cocos2dx_physics3d_Physics3DRigidBody_setMassProps, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setFriction", js_cocos2dx_physics3d_Physics3DRigidBody_setFriction, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setKinematic", js_cocos2dx_physics3d_Physics3DRigidBody_setKinematic, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDamping", js_cocos2dx_physics3d_Physics3DRigidBody_setDamping, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("applyImpulse", js_cocos2dx_physics3d_Physics3DRigidBody_applyImpulse, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("isKinematic", js_cocos2dx_physics3d_Physics3DRigidBody_isKinematic, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("applyTorque", js_cocos2dx_physics3d_Physics3DRigidBody_applyTorque, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setCcdMotionThreshold", js_cocos2dx_physics3d_Physics3DRigidBody_setCcdMotionThreshold, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setRollingFriction", js_cocos2dx_physics3d_Physics3DRigidBody_setRollingFriction, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getCcdMotionThreshold", js_cocos2dx_physics3d_Physics3DRigidBody_getCcdMotionThreshold, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLinearFactor", js_cocos2dx_physics3d_Physics3DRigidBody_getLinearFactor, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("applyDamping", js_cocos2dx_physics3d_Physics3DRigidBody_applyDamping, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAngularVelocity", js_cocos2dx_physics3d_Physics3DRigidBody_getAngularVelocity, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("init", js_cocos2dx_physics3d_Physics3DRigidBody_init, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("applyTorqueImpulse", js_cocos2dx_physics3d_Physics3DRigidBody_applyTorqueImpulse, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setActive", js_cocos2dx_physics3d_Physics3DRigidBody_setActive, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setLinearFactor", js_cocos2dx_physics3d_Physics3DRigidBody_setLinearFactor, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setLinearVelocity", js_cocos2dx_physics3d_Physics3DRigidBody_setLinearVelocity, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLinearVelocity", js_cocos2dx_physics3d_Physics3DRigidBody_getLinearVelocity, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setCcdSweptSphereRadius", js_cocos2dx_physics3d_Physics3DRigidBody_setCcdSweptSphereRadius, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("applyForce", js_cocos2dx_physics3d_Physics3DRigidBody_applyForce, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setAngularVelocity", js_cocos2dx_physics3d_Physics3DRigidBody_setAngularVelocity, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("applyCentralImpulse", js_cocos2dx_physics3d_Physics3DRigidBody_applyCentralImpulse, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getGravity", js_cocos2dx_physics3d_Physics3DRigidBody_getGravity, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRollingFriction", js_cocos2dx_physics3d_Physics3DRigidBody_getRollingFriction, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setCenterOfMassTransform", js_cocos2dx_physics3d_Physics3DRigidBody_setCenterOfMassTransform, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setInvInertiaDiagLocal", js_cocos2dx_physics3d_Physics3DRigidBody_setInvInertiaDiagLocal, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("removeConstraint", js_cocos2dx_physics3d_Physics3DRigidBody_removeConstraint, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getTotalTorque", js_cocos2dx_physics3d_Physics3DRigidBody_getTotalTorque, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getInvMass", js_cocos2dx_physics3d_Physics3DRigidBody_getInvMass, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getConstraint", js_cocos2dx_physics3d_Physics3DRigidBody_getConstraint, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRestitution", js_cocos2dx_physics3d_Physics3DRigidBody_getRestitution, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getCcdSweptSphereRadius", js_cocos2dx_physics3d_Physics3DRigidBody_getCcdSweptSphereRadius, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getHitFraction", js_cocos2dx_physics3d_Physics3DRigidBody_getHitFraction, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAngularDamping", js_cocos2dx_physics3d_Physics3DRigidBody_getAngularDamping, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getInvInertiaDiagLocal", js_cocos2dx_physics3d_Physics3DRigidBody_getInvInertiaDiagLocal, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getCenterOfMassTransform", js_cocos2dx_physics3d_Physics3DRigidBody_getCenterOfMassTransform, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAngularFactor", js_cocos2dx_physics3d_Physics3DRigidBody_getAngularFactor, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setRestitution", js_cocos2dx_physics3d_Physics3DRigidBody_setRestitution, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setHitFraction", js_cocos2dx_physics3d_Physics3DRigidBody_setHitFraction, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLinearDamping", js_cocos2dx_physics3d_Physics3DRigidBody_getLinearDamping, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JSFunctionSpec *st_funcs = NULL; JS::RootedObject parent_proto(cx, jsb_cocos2d_Physics3DObject_prototype); jsb_cocos2d_Physics3DRigidBody_prototype = JS_InitClass( cx, global, parent_proto, jsb_cocos2d_Physics3DRigidBody_class, js_cocos2dx_physics3d_Physics3DRigidBody_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DRigidBody_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DRigidBody")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DRigidBody_class, proto, parent_proto); } JSClass *jsb_cocos2d_Physics3DComponent_class; JSObject *jsb_cocos2d_Physics3DComponent_prototype; bool js_cocos2dx_physics3d_Physics3DComponent_syncNodeToPhysics(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DComponent* cobj = (cocos2d::Physics3DComponent *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_syncNodeToPhysics : Invalid Native Object"); if (argc == 0) { cobj->syncNodeToPhysics(); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_syncNodeToPhysics : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_addToPhysicsWorld(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DComponent* cobj = (cocos2d::Physics3DComponent *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_addToPhysicsWorld : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DWorld* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DWorld*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_addToPhysicsWorld : Error processing arguments"); cobj->addToPhysicsWorld(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_addToPhysicsWorld : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_syncPhysicsToNode(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DComponent* cobj = (cocos2d::Physics3DComponent *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_syncPhysicsToNode : Invalid Native Object"); if (argc == 0) { cobj->syncPhysicsToNode(); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_syncPhysicsToNode : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_getPhysics3DObject(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DComponent* cobj = (cocos2d::Physics3DComponent *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_getPhysics3DObject : Invalid Native Object"); if (argc == 0) { cocos2d::Physics3DObject* ret = cobj->getPhysics3DObject(); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DObject*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_getPhysics3DObject : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_setPhysics3DObject(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DComponent* cobj = (cocos2d::Physics3DComponent *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_setPhysics3DObject : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DObject* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DObject*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_setPhysics3DObject : Error processing arguments"); cobj->setPhysics3DObject(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_setPhysics3DObject : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_setSyncFlag(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DComponent* cobj = (cocos2d::Physics3DComponent *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_setSyncFlag : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DComponent::PhysicsSyncFlag arg0; ok &= jsval_to_int32(cx, args.get(0), (int32_t *)&arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_setSyncFlag : Error processing arguments"); cobj->setSyncFlag(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_setSyncFlag : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_setTransformInPhysics(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DComponent* cobj = (cocos2d::Physics3DComponent *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_setTransformInPhysics : Invalid Native Object"); if (argc == 2) { cocos2d::Vec3 arg0; cocos2d::Quaternion arg1; ok &= jsval_to_vector3(cx, args.get(0), &arg0); ok &= jsval_to_quaternion(cx, args.get(1), &arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DComponent_setTransformInPhysics : Error processing arguments"); cobj->setTransformInPhysics(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_setTransformInPhysics : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_create(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; do { if (argc == 1) { cocos2d::Physics3DObject* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DObject*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DComponent* ret = cocos2d::Physics3DComponent::create(arg0); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DComponent*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 2) { cocos2d::Physics3DObject* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DObject*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg1; ok &= jsval_to_vector3(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } cocos2d::Physics3DComponent* ret = cocos2d::Physics3DComponent::create(arg0, arg1); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DComponent*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 3) { cocos2d::Physics3DObject* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DObject*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg1; ok &= jsval_to_vector3(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } cocos2d::Quaternion arg2; ok &= jsval_to_quaternion(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Physics3DComponent* ret = cocos2d::Physics3DComponent::create(arg0, arg1, arg2); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DComponent*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 0) { cocos2d::Physics3DComponent* ret = cocos2d::Physics3DComponent::create(); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DComponent*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_create : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_getPhysics3DComponentName(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); if (argc == 0) { std::string& ret = cocos2d::Physics3DComponent::getPhysics3DComponentName(); jsval jsret = JSVAL_NULL; jsret = std_string_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DComponent_getPhysics3DComponentName : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DComponent_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3DComponent* cobj = new (std::nothrow) cocos2d::Physics3DComponent(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3DComponent")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } extern JSObject *jsb_cocos2d_Component_prototype; void js_register_cocos2dx_physics3d_Physics3DComponent(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DComponent_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DComponent_class->name = "Physics3DComponent"; jsb_cocos2d_Physics3DComponent_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DComponent_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DComponent_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DComponent_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DComponent_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DComponent_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DComponent_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DComponent_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("syncNodeToPhysics", js_cocos2dx_physics3d_Physics3DComponent_syncNodeToPhysics, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("addToPhysicsWorld", js_cocos2dx_physics3d_Physics3DComponent_addToPhysicsWorld, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("syncPhysicsToNode", js_cocos2dx_physics3d_Physics3DComponent_syncPhysicsToNode, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getPhysics3DObject", js_cocos2dx_physics3d_Physics3DComponent_getPhysics3DObject, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setPhysics3DObject", js_cocos2dx_physics3d_Physics3DComponent_setPhysics3DObject, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setSyncFlag", js_cocos2dx_physics3d_Physics3DComponent_setSyncFlag, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setTransformInPhysics", js_cocos2dx_physics3d_Physics3DComponent_setTransformInPhysics, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("create", js_cocos2dx_physics3d_Physics3DComponent_create, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getPhysics3DComponentName", js_cocos2dx_physics3d_Physics3DComponent_getPhysics3DComponentName, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JS::RootedObject parent_proto(cx, jsb_cocos2d_Component_prototype); jsb_cocos2d_Physics3DComponent_prototype = JS_InitClass( cx, global, parent_proto, jsb_cocos2d_Physics3DComponent_class, js_cocos2dx_physics3d_Physics3DComponent_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DComponent_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DComponent")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DComponent_class, proto, parent_proto); } JSClass *jsb_cocos2d_PhysicsSprite3D_class; JSObject *jsb_cocos2d_PhysicsSprite3D_prototype; bool js_cocos2dx_physics3d_PhysicsSprite3D_syncNodeToPhysics(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::PhysicsSprite3D* cobj = (cocos2d::PhysicsSprite3D *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_PhysicsSprite3D_syncNodeToPhysics : Invalid Native Object"); if (argc == 0) { cobj->syncNodeToPhysics(); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_PhysicsSprite3D_syncNodeToPhysics : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_PhysicsSprite3D_syncPhysicsToNode(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::PhysicsSprite3D* cobj = (cocos2d::PhysicsSprite3D *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_PhysicsSprite3D_syncPhysicsToNode : Invalid Native Object"); if (argc == 0) { cobj->syncPhysicsToNode(); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_PhysicsSprite3D_syncPhysicsToNode : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_PhysicsSprite3D_getPhysicsObj(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::PhysicsSprite3D* cobj = (cocos2d::PhysicsSprite3D *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_PhysicsSprite3D_getPhysicsObj : Invalid Native Object"); if (argc == 0) { cocos2d::Physics3DObject* ret = cobj->getPhysicsObj(); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DObject*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_PhysicsSprite3D_getPhysicsObj : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_PhysicsSprite3D_setSyncFlag(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::PhysicsSprite3D* cobj = (cocos2d::PhysicsSprite3D *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_PhysicsSprite3D_setSyncFlag : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DComponent::PhysicsSyncFlag arg0; ok &= jsval_to_int32(cx, args.get(0), (int32_t *)&arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_PhysicsSprite3D_setSyncFlag : Error processing arguments"); cobj->setSyncFlag(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_PhysicsSprite3D_setSyncFlag : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_PhysicsSprite3D_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::PhysicsSprite3D* cobj = new (std::nothrow) cocos2d::PhysicsSprite3D(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::PhysicsSprite3D")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } extern JSObject *jsb_cocos2d_Sprite3D_prototype; void js_register_cocos2dx_physics3d_PhysicsSprite3D(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_PhysicsSprite3D_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_PhysicsSprite3D_class->name = "PhysicsSprite3D"; jsb_cocos2d_PhysicsSprite3D_class->addProperty = JS_PropertyStub; jsb_cocos2d_PhysicsSprite3D_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_PhysicsSprite3D_class->getProperty = JS_PropertyStub; jsb_cocos2d_PhysicsSprite3D_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_PhysicsSprite3D_class->enumerate = JS_EnumerateStub; jsb_cocos2d_PhysicsSprite3D_class->resolve = JS_ResolveStub; jsb_cocos2d_PhysicsSprite3D_class->convert = JS_ConvertStub; jsb_cocos2d_PhysicsSprite3D_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("syncNodeToPhysics", js_cocos2dx_physics3d_PhysicsSprite3D_syncNodeToPhysics, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("syncPhysicsToNode", js_cocos2dx_physics3d_PhysicsSprite3D_syncPhysicsToNode, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getPhysicsObj", js_cocos2dx_physics3d_PhysicsSprite3D_getPhysicsObj, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setSyncFlag", js_cocos2dx_physics3d_PhysicsSprite3D_setSyncFlag, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JSFunctionSpec *st_funcs = NULL; JS::RootedObject parent_proto(cx, jsb_cocos2d_Sprite3D_prototype); jsb_cocos2d_PhysicsSprite3D_prototype = JS_InitClass( cx, global, parent_proto, jsb_cocos2d_PhysicsSprite3D_class, js_cocos2dx_physics3d_PhysicsSprite3D_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_PhysicsSprite3D_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "PhysicsSprite3D")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_PhysicsSprite3D_class, proto, parent_proto); } JSClass *jsb_cocos2d_Physics3DWorld_class; JSObject *jsb_cocos2d_Physics3DWorld_prototype; bool js_cocos2dx_physics3d_Physics3DWorld_setGravity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_setGravity : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_setGravity : Error processing arguments"); cobj->setGravity(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_setGravity : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_stepSimulate(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_stepSimulate : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_stepSimulate : Error processing arguments"); cobj->stepSimulate(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_stepSimulate : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_needCollisionChecking(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_needCollisionChecking : Invalid Native Object"); if (argc == 0) { bool ret = cobj->needCollisionChecking(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_needCollisionChecking : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_collisionChecking(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_collisionChecking : Invalid Native Object"); if (argc == 0) { cobj->collisionChecking(); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_collisionChecking : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_setGhostPairCallback(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_setGhostPairCallback : Invalid Native Object"); if (argc == 0) { cobj->setGhostPairCallback(); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_setGhostPairCallback : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_init(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_init : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DWorldDes* arg0 = nullptr; #pragma warning NO CONVERSION TO NATIVE FOR Physics3DWorldDes* ok = false; JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_init : Error processing arguments"); bool ret = cobj->init(arg0); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_init : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DObjects(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DObjects : Invalid Native Object"); if (argc == 0) { cobj->removeAllPhysics3DObjects(); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DObjects : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_isDebugDrawEnabled(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_isDebugDrawEnabled : Invalid Native Object"); if (argc == 0) { bool ret = cobj->isDebugDrawEnabled(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_isDebugDrawEnabled : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DConstraints(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DConstraints : Invalid Native Object"); if (argc == 0) { cobj->removeAllPhysics3DConstraints(); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DConstraints : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_getGravity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_getGravity : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getGravity(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_getGravity : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DConstraint : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DConstraint* arg0 = 0; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DConstraint*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DConstraint : Error processing arguments"); cobj->removePhysics3DConstraint(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DConstraint : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DObject(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DObject : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DObject* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DObject*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DObject : Error processing arguments"); cobj->addPhysics3DObject(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DObject : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_setDebugDrawEnable(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_setDebugDrawEnable : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_setDebugDrawEnable : Error processing arguments"); cobj->setDebugDrawEnable(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_setDebugDrawEnable : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DObject(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DObject : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DObject* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DObject*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DObject : Error processing arguments"); cobj->removePhysics3DObject(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DObject : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_getPhysicsObject(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_getPhysicsObject : Invalid Native Object"); if (argc == 1) { const btCollisionObject* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (const btCollisionObject*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_getPhysicsObject : Error processing arguments"); cocos2d::Physics3DObject* ret = cobj->getPhysicsObject(arg0); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DObject*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_getPhysicsObject : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DConstraint : Invalid Native Object"); if (argc == 1) { cocos2d::Physics3DConstraint* arg0 = 0; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DConstraint*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DConstraint : Error processing arguments"); cobj->addPhysics3DConstraint(arg0); args.rval().setUndefined(); return true; } if (argc == 2) { cocos2d::Physics3DConstraint* arg0 = 0; bool arg1; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DConstraint*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); arg1 = JS::ToBoolean(args.get(1)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DConstraint : Error processing arguments"); cobj->addPhysics3DConstraint(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DConstraint : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_debugDraw(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_debugDraw : Invalid Native Object"); if (argc == 1) { cocos2d::Renderer* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Renderer*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_debugDraw : Error processing arguments"); cobj->debugDraw(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_debugDraw : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_sweepShape(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DWorld* cobj = (cocos2d::Physics3DWorld *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_sweepShape : Invalid Native Object"); if (argc == 4) { cocos2d::Physics3DShape* arg0 = nullptr; cocos2d::Mat4 arg1; cocos2d::Mat4 arg2; cocos2d::Physics3DWorld::HitResult* arg3 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DShape*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); ok &= jsval_to_matrix(cx, args.get(1), &arg1); ok &= jsval_to_matrix(cx, args.get(2), &arg2); #pragma warning NO CONVERSION TO NATIVE FOR HitResult* ok = false; JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_sweepShape : Error processing arguments"); bool ret = cobj->sweepShape(arg0, arg1, arg2, arg3); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_sweepShape : wrong number of arguments: %d, was expecting %d", argc, 4); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_create(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; if (argc == 1) { cocos2d::Physics3DWorldDes* arg0 = nullptr; #pragma warning NO CONVERSION TO NATIVE FOR Physics3DWorldDes* ok = false; JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DWorld_create : Error processing arguments"); auto ret = cocos2d::Physics3DWorld::create(arg0); js_type_class_t *typeClass = js_get_type_from_native(ret); JS::RootedObject jsret(cx, jsb_ref_autoreleased_create_jsobject(cx, ret, typeClass, "cocos2d::Physics3DWorld")); args.rval().set(OBJECT_TO_JSVAL(jsret)); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DWorld_create : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DWorld_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3DWorld* cobj = new (std::nothrow) cocos2d::Physics3DWorld(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3DWorld")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } void js_register_cocos2dx_physics3d_Physics3DWorld(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DWorld_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DWorld_class->name = "Physics3DWorld"; jsb_cocos2d_Physics3DWorld_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DWorld_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DWorld_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DWorld_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DWorld_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DWorld_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DWorld_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DWorld_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("setGravity", js_cocos2dx_physics3d_Physics3DWorld_setGravity, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("stepSimulate", js_cocos2dx_physics3d_Physics3DWorld_stepSimulate, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("needCollisionChecking", js_cocos2dx_physics3d_Physics3DWorld_needCollisionChecking, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("collisionChecking", js_cocos2dx_physics3d_Physics3DWorld_collisionChecking, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setGhostPairCallback", js_cocos2dx_physics3d_Physics3DWorld_setGhostPairCallback, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("init", js_cocos2dx_physics3d_Physics3DWorld_init, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("removeAllPhysics3DObjects", js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DObjects, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("isDebugDrawEnabled", js_cocos2dx_physics3d_Physics3DWorld_isDebugDrawEnabled, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("removeAllPhysics3DConstraints", js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DConstraints, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getGravity", js_cocos2dx_physics3d_Physics3DWorld_getGravity, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("removePhysics3DConstraint", js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DConstraint, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("addPhysics3DObject", js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DObject, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDebugDrawEnable", js_cocos2dx_physics3d_Physics3DWorld_setDebugDrawEnable, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("removePhysics3DObject", js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DObject, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getPhysicsObject", js_cocos2dx_physics3d_Physics3DWorld_getPhysicsObject, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("addPhysics3DConstraint", js_cocos2dx_physics3d_Physics3DWorld_addPhysics3DConstraint, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("debugDraw", js_cocos2dx_physics3d_Physics3DWorld_debugDraw, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("sweepShape", js_cocos2dx_physics3d_Physics3DWorld_sweepShape, 4, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("create", js_cocos2dx_physics3d_Physics3DWorld_create, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; jsb_cocos2d_Physics3DWorld_prototype = JS_InitClass( cx, global, JS::NullPtr(), jsb_cocos2d_Physics3DWorld_class, js_cocos2dx_physics3d_Physics3DWorld_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DWorld_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DWorld")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DWorld_class, proto, JS::NullPtr()); } JSClass *jsb_cocos2d_Physics3DConstraint_class; JSObject *jsb_cocos2d_Physics3DConstraint_prototype; bool js_cocos2dx_physics3d_Physics3DConstraint_setEnabled(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_setEnabled : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_setEnabled : Error processing arguments"); cobj->setEnabled(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_setEnabled : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_setBreakingImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_setBreakingImpulse : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_setBreakingImpulse : Error processing arguments"); cobj->setBreakingImpulse(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_setBreakingImpulse : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_getUserData(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_getUserData : Invalid Native Object"); if (argc == 0) { void* ret = cobj->getUserData(); JS::RootedValue jsret(cx); #pragma warning NO CONVERSION FROM NATIVE FOR void*; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_getUserData : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_getBreakingImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_getBreakingImpulse : Invalid Native Object"); if (argc == 0) { double ret = cobj->getBreakingImpulse(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_getBreakingImpulse : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_getBodyA(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_getBodyA : Invalid Native Object"); if (argc == 0) { cocos2d::Physics3DRigidBody* ret = cobj->getBodyA(); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DRigidBody*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_getBodyA : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_isEnabled(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_isEnabled : Invalid Native Object"); if (argc == 0) { bool ret = cobj->isEnabled(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_isEnabled : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_getOverrideNumSolverIterations(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_getOverrideNumSolverIterations : Invalid Native Object"); if (argc == 0) { int ret = cobj->getOverrideNumSolverIterations(); JS::RootedValue jsret(cx); jsret = int32_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_getOverrideNumSolverIterations : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_getBodyB(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_getBodyB : Invalid Native Object"); if (argc == 0) { cocos2d::Physics3DRigidBody* ret = cobj->getBodyB(); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DRigidBody*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_getBodyB : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_setOverrideNumSolverIterations(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_setOverrideNumSolverIterations : Invalid Native Object"); if (argc == 1) { int arg0 = 0; ok &= jsval_to_int32(cx, args.get(0), (int32_t *)&arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_setOverrideNumSolverIterations : Error processing arguments"); cobj->setOverrideNumSolverIterations(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_setOverrideNumSolverIterations : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_getConstraintType(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_getConstraintType : Invalid Native Object"); if (argc == 0) { int ret = (int)cobj->getConstraintType(); JS::RootedValue jsret(cx); jsret = int32_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_getConstraintType : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_setUserData(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_setUserData : Invalid Native Object"); if (argc == 1) { void* arg0 = nullptr; #pragma warning NO CONVERSION TO NATIVE FOR void* ok = false; JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_setUserData : Error processing arguments"); cobj->setUserData(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_setUserData : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConstraint_getbtContraint(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConstraint* cobj = (cocos2d::Physics3DConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConstraint_getbtContraint : Invalid Native Object"); if (argc == 0) { btTypedConstraint* ret = cobj->getbtContraint(); JS::RootedValue jsret(cx); if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (btTypedConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConstraint_getbtContraint : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } void js_register_cocos2dx_physics3d_Physics3DConstraint(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DConstraint_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DConstraint_class->name = "Physics3DConstraint"; jsb_cocos2d_Physics3DConstraint_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DConstraint_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DConstraint_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DConstraint_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DConstraint_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DConstraint_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DConstraint_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DConstraint_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("setEnabled", js_cocos2dx_physics3d_Physics3DConstraint_setEnabled, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setBreakingImpulse", js_cocos2dx_physics3d_Physics3DConstraint_setBreakingImpulse, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUserData", js_cocos2dx_physics3d_Physics3DConstraint_getUserData, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getBreakingImpulse", js_cocos2dx_physics3d_Physics3DConstraint_getBreakingImpulse, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getBodyA", js_cocos2dx_physics3d_Physics3DConstraint_getBodyA, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("isEnabled", js_cocos2dx_physics3d_Physics3DConstraint_isEnabled, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getOverrideNumSolverIterations", js_cocos2dx_physics3d_Physics3DConstraint_getOverrideNumSolverIterations, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getBodyB", js_cocos2dx_physics3d_Physics3DConstraint_getBodyB, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setOverrideNumSolverIterations", js_cocos2dx_physics3d_Physics3DConstraint_setOverrideNumSolverIterations, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getConstraintType", js_cocos2dx_physics3d_Physics3DConstraint_getConstraintType, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setUserData", js_cocos2dx_physics3d_Physics3DConstraint_setUserData, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getbtContraint", js_cocos2dx_physics3d_Physics3DConstraint_getbtContraint, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JSFunctionSpec *st_funcs = NULL; jsb_cocos2d_Physics3DConstraint_prototype = JS_InitClass( cx, global, JS::NullPtr(), jsb_cocos2d_Physics3DConstraint_class, dummy_constructor, 0, // no constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DConstraint_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DConstraint")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DConstraint_class, proto, JS::NullPtr()); } JSClass *jsb_cocos2d_Physics3DPointToPointConstraint_class; JSObject *jsb_cocos2d_Physics3DPointToPointConstraint_prototype; bool js_cocos2dx_physics3d_Physics3DPointToPointConstraint_getPivotPointInA(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DPointToPointConstraint* cobj = (cocos2d::Physics3DPointToPointConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_getPivotPointInA : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getPivotPointInA(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_getPivotPointInA : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DPointToPointConstraint_getPivotPointInB(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DPointToPointConstraint* cobj = (cocos2d::Physics3DPointToPointConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_getPivotPointInB : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getPivotPointInB(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_getPivotPointInB : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DPointToPointConstraint_init(JSContext *cx, uint32_t argc, jsval *vp) { bool ok = true; cocos2d::Physics3DPointToPointConstraint* cobj = nullptr; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx); obj.set(args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cobj = (cocos2d::Physics3DPointToPointConstraint *)(proxy ? proxy->ptr : nullptr); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_init : Invalid Native Object"); do { if (argc == 4) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DRigidBody* arg1 = nullptr; do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg2; ok &= jsval_to_vector3(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Vec3 arg3; ok &= jsval_to_vector3(cx, args.get(3), &arg3); if (!ok) { ok = true; break; } bool ret = cobj->init(arg0, arg1, arg2, arg3); jsval jsret = JSVAL_NULL; jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } } while(0); do { if (argc == 2) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg1; ok &= jsval_to_vector3(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } bool ret = cobj->init(arg0, arg1); jsval jsret = JSVAL_NULL; jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } } while(0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_init : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInA(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DPointToPointConstraint* cobj = (cocos2d::Physics3DPointToPointConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInA : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInA : Error processing arguments"); cobj->setPivotPointInA(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInA : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInB(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DPointToPointConstraint* cobj = (cocos2d::Physics3DPointToPointConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInB : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInB : Error processing arguments"); cobj->setPivotPointInB(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInB : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DPointToPointConstraint_create(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; do { if (argc == 4) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DRigidBody* arg1 = nullptr; do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg2; ok &= jsval_to_vector3(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Vec3 arg3; ok &= jsval_to_vector3(cx, args.get(3), &arg3); if (!ok) { ok = true; break; } cocos2d::Physics3DPointToPointConstraint* ret = cocos2d::Physics3DPointToPointConstraint::create(arg0, arg1, arg2, arg3); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DPointToPointConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 2) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg1; ok &= jsval_to_vector3(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } cocos2d::Physics3DPointToPointConstraint* ret = cocos2d::Physics3DPointToPointConstraint::create(arg0, arg1); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DPointToPointConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DPointToPointConstraint_create : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DPointToPointConstraint_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3DPointToPointConstraint* cobj = new (std::nothrow) cocos2d::Physics3DPointToPointConstraint(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3DPointToPointConstraint")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } extern JSObject *jsb_cocos2d_Physics3DConstraint_prototype; void js_register_cocos2dx_physics3d_Physics3DPointToPointConstraint(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DPointToPointConstraint_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DPointToPointConstraint_class->name = "Physics3DPointToPointConstraint"; jsb_cocos2d_Physics3DPointToPointConstraint_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DPointToPointConstraint_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DPointToPointConstraint_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DPointToPointConstraint_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DPointToPointConstraint_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DPointToPointConstraint_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DPointToPointConstraint_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DPointToPointConstraint_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("getPivotPointInA", js_cocos2dx_physics3d_Physics3DPointToPointConstraint_getPivotPointInA, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getPivotPointInB", js_cocos2dx_physics3d_Physics3DPointToPointConstraint_getPivotPointInB, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("init", js_cocos2dx_physics3d_Physics3DPointToPointConstraint_init, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setPivotPointInA", js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInA, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setPivotPointInB", js_cocos2dx_physics3d_Physics3DPointToPointConstraint_setPivotPointInB, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("create", js_cocos2dx_physics3d_Physics3DPointToPointConstraint_create, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JS::RootedObject parent_proto(cx, jsb_cocos2d_Physics3DConstraint_prototype); jsb_cocos2d_Physics3DPointToPointConstraint_prototype = JS_InitClass( cx, global, parent_proto, jsb_cocos2d_Physics3DPointToPointConstraint_class, js_cocos2dx_physics3d_Physics3DPointToPointConstraint_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DPointToPointConstraint_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DPointToPointConstraint")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DPointToPointConstraint_class, proto, parent_proto); } JSClass *jsb_cocos2d_Physics3DHingeConstraint_class; JSObject *jsb_cocos2d_Physics3DHingeConstraint_prototype; bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getHingeAngle(JSContext *cx, uint32_t argc, jsval *vp) { bool ok = true; cocos2d::Physics3DHingeConstraint* cobj = nullptr; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx); obj.set(args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : nullptr); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getHingeAngle : Invalid Native Object"); do { if (argc == 2) { cocos2d::Mat4 arg0; ok &= jsval_to_matrix(cx, args.get(0), &arg0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg1; ok &= jsval_to_matrix(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } double ret = cobj->getHingeAngle(arg0, arg1); jsval jsret = JSVAL_NULL; jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } } while(0); do { if (argc == 0) { double ret = cobj->getHingeAngle(); jsval jsret = JSVAL_NULL; jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } } while(0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getHingeAngle : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getMotorTargetVelosity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getMotorTargetVelosity : Invalid Native Object"); if (argc == 0) { double ret = cobj->getMotorTargetVelosity(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getMotorTargetVelosity : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getFrameOffsetA(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getFrameOffsetA : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getFrameOffsetA(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getFrameOffsetA : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getFrameOffsetB(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getFrameOffsetB : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getFrameOffsetB(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getFrameOffsetB : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_setMaxMotorImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setMaxMotorImpulse : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setMaxMotorImpulse : Error processing arguments"); cobj->setMaxMotorImpulse(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setMaxMotorImpulse : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_enableAngularMotor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_enableAngularMotor : Invalid Native Object"); if (argc == 3) { bool arg0; double arg1 = 0; double arg2 = 0; arg0 = JS::ToBoolean(args.get(0)); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); ok &= JS::ToNumber( cx, args.get(2), &arg2) && !std::isnan(arg2); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_enableAngularMotor : Error processing arguments"); cobj->enableAngularMotor(arg0, arg1, arg2); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_enableAngularMotor : wrong number of arguments: %d, was expecting %d", argc, 3); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getUpperLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getUpperLimit : Invalid Native Object"); if (argc == 0) { double ret = cobj->getUpperLimit(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getUpperLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getMaxMotorImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getMaxMotorImpulse : Invalid Native Object"); if (argc == 0) { double ret = cobj->getMaxMotorImpulse(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getMaxMotorImpulse : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getLowerLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getLowerLimit : Invalid Native Object"); if (argc == 0) { double ret = cobj->getLowerLimit(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getLowerLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_setUseFrameOffset(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setUseFrameOffset : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setUseFrameOffset : Error processing arguments"); cobj->setUseFrameOffset(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setUseFrameOffset : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getEnableAngularMotor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getEnableAngularMotor : Invalid Native Object"); if (argc == 0) { bool ret = cobj->getEnableAngularMotor(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getEnableAngularMotor : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_enableMotor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_enableMotor : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_enableMotor : Error processing arguments"); cobj->enableMotor(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_enableMotor : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getBFrame(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getBFrame : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getBFrame(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getBFrame : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_setFrames(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setFrames : Invalid Native Object"); if (argc == 2) { cocos2d::Mat4 arg0; cocos2d::Mat4 arg1; ok &= jsval_to_matrix(cx, args.get(0), &arg0); ok &= jsval_to_matrix(cx, args.get(1), &arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setFrames : Error processing arguments"); cobj->setFrames(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setFrames : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getUseFrameOffset(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getUseFrameOffset : Invalid Native Object"); if (argc == 0) { bool ret = cobj->getUseFrameOffset(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getUseFrameOffset : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_setAngularOnly(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setAngularOnly : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setAngularOnly : Error processing arguments"); cobj->setAngularOnly(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setAngularOnly : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_setLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setLimit : Invalid Native Object"); if (argc == 2) { double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setLimit : Error processing arguments"); cobj->setLimit(arg0, arg1); args.rval().setUndefined(); return true; } if (argc == 3) { double arg0 = 0; double arg1 = 0; double arg2 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); ok &= JS::ToNumber( cx, args.get(2), &arg2) && !std::isnan(arg2); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setLimit : Error processing arguments"); cobj->setLimit(arg0, arg1, arg2); args.rval().setUndefined(); return true; } if (argc == 4) { double arg0 = 0; double arg1 = 0; double arg2 = 0; double arg3 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); ok &= JS::ToNumber( cx, args.get(2), &arg2) && !std::isnan(arg2); ok &= JS::ToNumber( cx, args.get(3), &arg3) && !std::isnan(arg3); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setLimit : Error processing arguments"); cobj->setLimit(arg0, arg1, arg2, arg3); args.rval().setUndefined(); return true; } if (argc == 5) { double arg0 = 0; double arg1 = 0; double arg2 = 0; double arg3 = 0; double arg4 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); ok &= JS::ToNumber( cx, args.get(2), &arg2) && !std::isnan(arg2); ok &= JS::ToNumber( cx, args.get(3), &arg3) && !std::isnan(arg3); ok &= JS::ToNumber( cx, args.get(4), &arg4) && !std::isnan(arg4); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setLimit : Error processing arguments"); cobj->setLimit(arg0, arg1, arg2, arg3, arg4); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setLimit : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_setMotorTarget(JSContext *cx, uint32_t argc, jsval *vp) { bool ok = true; cocos2d::Physics3DHingeConstraint* cobj = nullptr; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx); obj.set(args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : nullptr); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setMotorTarget : Invalid Native Object"); do { if (argc == 2) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); if (!ok) { ok = true; break; } double arg1 = 0; ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); if (!ok) { ok = true; break; } cobj->setMotorTarget(arg0, arg1); args.rval().setUndefined(); return true; } } while(0); do { if (argc == 2) { cocos2d::Quaternion arg0; ok &= jsval_to_quaternion(cx, args.get(0), &arg0); if (!ok) { ok = true; break; } double arg1 = 0; ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); if (!ok) { ok = true; break; } cobj->setMotorTarget(arg0, arg1); args.rval().setUndefined(); return true; } } while(0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setMotorTarget : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getAngularOnly(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getAngularOnly : Invalid Native Object"); if (argc == 0) { bool ret = cobj->getAngularOnly(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getAngularOnly : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_setAxis(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setAxis : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setAxis : Error processing arguments"); cobj->setAxis(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_setAxis : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getAFrame(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DHingeConstraint* cobj = (cocos2d::Physics3DHingeConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getAFrame : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getAFrame(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_getAFrame : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_create(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; do { if (argc == 3) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg1; ok &= jsval_to_vector3(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } cocos2d::Vec3 arg2; ok &= jsval_to_vector3(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Physics3DHingeConstraint* ret = cocos2d::Physics3DHingeConstraint::create(arg0, arg1, arg2); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DHingeConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 4) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg1; ok &= jsval_to_vector3(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } cocos2d::Vec3 arg2; ok &= jsval_to_vector3(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } bool arg3; arg3 = JS::ToBoolean(args.get(3)); if (!ok) { ok = true; break; } cocos2d::Physics3DHingeConstraint* ret = cocos2d::Physics3DHingeConstraint::create(arg0, arg1, arg2, arg3); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DHingeConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 2) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg1; ok &= jsval_to_matrix(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } cocos2d::Physics3DHingeConstraint* ret = cocos2d::Physics3DHingeConstraint::create(arg0, arg1); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DHingeConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 3) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg1; ok &= jsval_to_matrix(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } bool arg2; arg2 = JS::ToBoolean(args.get(2)); if (!ok) { ok = true; break; } cocos2d::Physics3DHingeConstraint* ret = cocos2d::Physics3DHingeConstraint::create(arg0, arg1, arg2); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DHingeConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 6) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DRigidBody* arg1 = nullptr; do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg2; ok &= jsval_to_vector3(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Vec3 arg3; ok &= jsval_to_vector3(cx, args.get(3), &arg3); if (!ok) { ok = true; break; } cocos2d::Vec3 arg4; ok &= jsval_to_vector3(cx, args.get(4), &arg4); if (!ok) { ok = true; break; } cocos2d::Vec3 arg5; ok &= jsval_to_vector3(cx, args.get(5), &arg5); if (!ok) { ok = true; break; } cocos2d::Physics3DHingeConstraint* ret = cocos2d::Physics3DHingeConstraint::create(arg0, arg1, arg2, arg3, arg4, arg5); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DHingeConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 7) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DRigidBody* arg1 = nullptr; do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Vec3 arg2; ok &= jsval_to_vector3(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Vec3 arg3; ok &= jsval_to_vector3(cx, args.get(3), &arg3); if (!ok) { ok = true; break; } cocos2d::Vec3 arg4; ok &= jsval_to_vector3(cx, args.get(4), &arg4); if (!ok) { ok = true; break; } cocos2d::Vec3 arg5; ok &= jsval_to_vector3(cx, args.get(5), &arg5); if (!ok) { ok = true; break; } bool arg6; arg6 = JS::ToBoolean(args.get(6)); if (!ok) { ok = true; break; } cocos2d::Physics3DHingeConstraint* ret = cocos2d::Physics3DHingeConstraint::create(arg0, arg1, arg2, arg3, arg4, arg5, arg6); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DHingeConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 4) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DRigidBody* arg1 = nullptr; do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg2; ok &= jsval_to_matrix(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Mat4 arg3; ok &= jsval_to_matrix(cx, args.get(3), &arg3); if (!ok) { ok = true; break; } cocos2d::Physics3DHingeConstraint* ret = cocos2d::Physics3DHingeConstraint::create(arg0, arg1, arg2, arg3); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DHingeConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 5) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DRigidBody* arg1 = nullptr; do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg2; ok &= jsval_to_matrix(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Mat4 arg3; ok &= jsval_to_matrix(cx, args.get(3), &arg3); if (!ok) { ok = true; break; } bool arg4; arg4 = JS::ToBoolean(args.get(4)); if (!ok) { ok = true; break; } cocos2d::Physics3DHingeConstraint* ret = cocos2d::Physics3DHingeConstraint::create(arg0, arg1, arg2, arg3, arg4); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DHingeConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DHingeConstraint_create : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DHingeConstraint_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3DHingeConstraint* cobj = new (std::nothrow) cocos2d::Physics3DHingeConstraint(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3DHingeConstraint")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } extern JSObject *jsb_cocos2d_Physics3DConstraint_prototype; void js_register_cocos2dx_physics3d_Physics3DHingeConstraint(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DHingeConstraint_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DHingeConstraint_class->name = "Physics3DHingeConstraint"; jsb_cocos2d_Physics3DHingeConstraint_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DHingeConstraint_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DHingeConstraint_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DHingeConstraint_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DHingeConstraint_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DHingeConstraint_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DHingeConstraint_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DHingeConstraint_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("getHingeAngle", js_cocos2dx_physics3d_Physics3DHingeConstraint_getHingeAngle, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getMotorTargetVelosity", js_cocos2dx_physics3d_Physics3DHingeConstraint_getMotorTargetVelosity, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getFrameOffsetA", js_cocos2dx_physics3d_Physics3DHingeConstraint_getFrameOffsetA, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getFrameOffsetB", js_cocos2dx_physics3d_Physics3DHingeConstraint_getFrameOffsetB, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setMaxMotorImpulse", js_cocos2dx_physics3d_Physics3DHingeConstraint_setMaxMotorImpulse, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("enableAngularMotor", js_cocos2dx_physics3d_Physics3DHingeConstraint_enableAngularMotor, 3, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUpperLimit", js_cocos2dx_physics3d_Physics3DHingeConstraint_getUpperLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getMaxMotorImpulse", js_cocos2dx_physics3d_Physics3DHingeConstraint_getMaxMotorImpulse, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLowerLimit", js_cocos2dx_physics3d_Physics3DHingeConstraint_getLowerLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setUseFrameOffset", js_cocos2dx_physics3d_Physics3DHingeConstraint_setUseFrameOffset, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getEnableAngularMotor", js_cocos2dx_physics3d_Physics3DHingeConstraint_getEnableAngularMotor, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("enableMotor", js_cocos2dx_physics3d_Physics3DHingeConstraint_enableMotor, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getBFrame", js_cocos2dx_physics3d_Physics3DHingeConstraint_getBFrame, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setFrames", js_cocos2dx_physics3d_Physics3DHingeConstraint_setFrames, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUseFrameOffset", js_cocos2dx_physics3d_Physics3DHingeConstraint_getUseFrameOffset, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setAngularOnly", js_cocos2dx_physics3d_Physics3DHingeConstraint_setAngularOnly, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setLimit", js_cocos2dx_physics3d_Physics3DHingeConstraint_setLimit, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setMotorTarget", js_cocos2dx_physics3d_Physics3DHingeConstraint_setMotorTarget, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAngularOnly", js_cocos2dx_physics3d_Physics3DHingeConstraint_getAngularOnly, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setAxis", js_cocos2dx_physics3d_Physics3DHingeConstraint_setAxis, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAFrame", js_cocos2dx_physics3d_Physics3DHingeConstraint_getAFrame, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("create", js_cocos2dx_physics3d_Physics3DHingeConstraint_create, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JS::RootedObject parent_proto(cx, jsb_cocos2d_Physics3DConstraint_prototype); jsb_cocos2d_Physics3DHingeConstraint_prototype = JS_InitClass( cx, global, parent_proto, jsb_cocos2d_Physics3DHingeConstraint_class, js_cocos2dx_physics3d_Physics3DHingeConstraint_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DHingeConstraint_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DHingeConstraint")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DHingeConstraint_class, proto, parent_proto); } JSClass *jsb_cocos2d_Physics3DSliderConstraint_class; JSObject *jsb_cocos2d_Physics3DSliderConstraint_prototype; bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredAngMotor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredAngMotor : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredAngMotor : Error processing arguments"); cobj->setPoweredAngMotor(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredAngMotor : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingLimAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingLimAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getDampingLimAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingLimAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoLin : Error processing arguments"); cobj->setRestitutionOrthoLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirLin : Error processing arguments"); cobj->setRestitutionDirLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getLinearPos(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getLinearPos : Invalid Native Object"); if (argc == 0) { double ret = cobj->getLinearPos(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getLinearPos : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getFrameOffsetA(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getFrameOffsetA : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getFrameOffsetA(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getFrameOffsetA : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getFrameOffsetB(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getFrameOffsetB : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getFrameOffsetB(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getFrameOffsetB : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredLinMotor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredLinMotor : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredLinMotor : Error processing arguments"); cobj->setPoweredLinMotor(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredLinMotor : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingDirAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingDirAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getDampingDirAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingDirAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionLimLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionLimLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getRestitutionLimLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionLimLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessOrthoAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessOrthoAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getSoftnessOrthoAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessOrthoAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoLin : Error processing arguments"); cobj->setSoftnessOrthoLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimLin : Error processing arguments"); cobj->setSoftnessLimLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getAngularPos(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getAngularPos : Invalid Native Object"); if (argc == 0) { double ret = cobj->getAngularPos(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getAngularPos : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimAng : Error processing arguments"); cobj->setRestitutionLimAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperLinLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperLinLimit : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperLinLimit : Error processing arguments"); cobj->setUpperLinLimit(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperLinLimit : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirLin : Error processing arguments"); cobj->setDampingDirLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getUpperAngLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getUpperAngLimit : Invalid Native Object"); if (argc == 0) { double ret = cobj->getUpperAngLimit(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getUpperAngLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingDirLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingDirLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getDampingDirLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingDirLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessDirAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessDirAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getSoftnessDirAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessDirAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getPoweredAngMotor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getPoweredAngMotor : Invalid Native Object"); if (argc == 0) { bool ret = cobj->getPoweredAngMotor(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getPoweredAngMotor : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerAngLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerAngLimit : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerAngLimit : Error processing arguments"); cobj->setLowerAngLimit(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerAngLimit : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperAngLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperAngLimit : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperAngLimit : Error processing arguments"); cobj->setUpperAngLimit(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperAngLimit : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetLinMotorVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetLinMotorVelocity : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetLinMotorVelocity : Error processing arguments"); cobj->setTargetLinMotorVelocity(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetLinMotorVelocity : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimAng : Error processing arguments"); cobj->setDampingLimAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionLimAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionLimAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getRestitutionLimAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionLimAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getUseFrameOffset(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getUseFrameOffset : Invalid Native Object"); if (argc == 0) { bool ret = cobj->getUseFrameOffset(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getUseFrameOffset : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessOrthoLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessOrthoLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getSoftnessOrthoLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessOrthoLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingOrthoAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingOrthoAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getDampingOrthoAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingOrthoAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setUseFrameOffset(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUseFrameOffset : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUseFrameOffset : Error processing arguments"); cobj->setUseFrameOffset(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setUseFrameOffset : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerLinLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerLinLimit : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerLinLimit : Error processing arguments"); cobj->setLowerLinLimit(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerLinLimit : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionDirLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionDirLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getRestitutionDirLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionDirLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getTargetLinMotorVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getTargetLinMotorVelocity : Invalid Native Object"); if (argc == 0) { double ret = cobj->getTargetLinMotorVelocity(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getTargetLinMotorVelocity : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getLowerLinLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getLowerLinLimit : Invalid Native Object"); if (argc == 0) { double ret = cobj->getLowerLinLimit(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getLowerLinLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessLimLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessLimLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getSoftnessLimLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessLimLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoAng : Error processing arguments"); cobj->setDampingOrthoAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirAng : Error processing arguments"); cobj->setSoftnessDirAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getPoweredLinMotor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getPoweredLinMotor : Invalid Native Object"); if (argc == 0) { bool ret = cobj->getPoweredLinMotor(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getPoweredLinMotor : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoAng : Error processing arguments"); cobj->setRestitutionOrthoAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirAng : Error processing arguments"); cobj->setDampingDirAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setFrames(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setFrames : Invalid Native Object"); if (argc == 2) { cocos2d::Mat4 arg0; cocos2d::Mat4 arg1; ok &= jsval_to_matrix(cx, args.get(0), &arg0); ok &= jsval_to_matrix(cx, args.get(1), &arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setFrames : Error processing arguments"); cobj->setFrames(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setFrames : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionOrthoAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionOrthoAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getRestitutionOrthoAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionOrthoAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getMaxAngMotorForce(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getMaxAngMotorForce : Invalid Native Object"); if (argc == 0) { double ret = cobj->getMaxAngMotorForce(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getMaxAngMotorForce : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingOrthoLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingOrthoLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getDampingOrthoLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingOrthoLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getUpperLinLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getUpperLinLimit : Invalid Native Object"); if (argc == 0) { double ret = cobj->getUpperLinLimit(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getUpperLinLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxLinMotorForce(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxLinMotorForce : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxLinMotorForce : Error processing arguments"); cobj->setMaxLinMotorForce(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxLinMotorForce : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionOrthoLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionOrthoLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getRestitutionOrthoLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionOrthoLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetAngMotorVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetAngMotorVelocity : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetAngMotorVelocity : Error processing arguments"); cobj->setTargetAngMotorVelocity(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetAngMotorVelocity : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessLimAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessLimAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getSoftnessLimAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessLimAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirAng : Error processing arguments"); cobj->setRestitutionDirAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingLimLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingLimLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getDampingLimLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingLimLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getLowerAngLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getLowerAngLimit : Invalid Native Object"); if (argc == 0) { double ret = cobj->getLowerAngLimit(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getLowerAngLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionDirAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionDirAng : Invalid Native Object"); if (argc == 0) { double ret = cobj->getRestitutionDirAng(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionDirAng : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getTargetAngMotorVelocity(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getTargetAngMotorVelocity : Invalid Native Object"); if (argc == 0) { double ret = cobj->getTargetAngMotorVelocity(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getTargetAngMotorVelocity : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimLin : Error processing arguments"); cobj->setRestitutionLimLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getMaxLinMotorForce(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getMaxLinMotorForce : Invalid Native Object"); if (argc == 0) { double ret = cobj->getMaxLinMotorForce(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getMaxLinMotorForce : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoLin : Error processing arguments"); cobj->setDampingOrthoLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoAng : Error processing arguments"); cobj->setSoftnessOrthoAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimLin : Error processing arguments"); cobj->setDampingLimLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirLin : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirLin : Error processing arguments"); cobj->setSoftnessDirLin(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirLin : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxAngMotorForce(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxAngMotorForce : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxAngMotorForce : Error processing arguments"); cobj->setMaxAngMotorForce(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxAngMotorForce : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessDirLin(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessDirLin : Invalid Native Object"); if (argc == 0) { double ret = cobj->getSoftnessDirLin(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessDirLin : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimAng(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimAng : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimAng : Error processing arguments"); cobj->setSoftnessLimAng(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimAng : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_getUseLinearReferenceFrameA(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DSliderConstraint* cobj = (cocos2d::Physics3DSliderConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getUseLinearReferenceFrameA : Invalid Native Object"); if (argc == 0) { bool ret = cobj->getUseLinearReferenceFrameA(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_getUseLinearReferenceFrameA : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_create(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; if (argc == 5) { cocos2d::Physics3DRigidBody* arg0 = nullptr; cocos2d::Physics3DRigidBody* arg1 = nullptr; cocos2d::Mat4 arg2; cocos2d::Mat4 arg3; bool arg4; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); ok &= jsval_to_matrix(cx, args.get(2), &arg2); ok &= jsval_to_matrix(cx, args.get(3), &arg3); arg4 = JS::ToBoolean(args.get(4)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DSliderConstraint_create : Error processing arguments"); auto ret = cocos2d::Physics3DSliderConstraint::create(arg0, arg1, arg2, arg3, arg4); js_type_class_t *typeClass = js_get_type_from_native(ret); JS::RootedObject jsret(cx, jsb_ref_autoreleased_create_jsobject(cx, ret, typeClass, "cocos2d::Physics3DSliderConstraint")); args.rval().set(OBJECT_TO_JSVAL(jsret)); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DSliderConstraint_create : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DSliderConstraint_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3DSliderConstraint* cobj = new (std::nothrow) cocos2d::Physics3DSliderConstraint(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3DSliderConstraint")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } extern JSObject *jsb_cocos2d_Physics3DConstraint_prototype; void js_register_cocos2dx_physics3d_Physics3DSliderConstraint(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DSliderConstraint_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DSliderConstraint_class->name = "Physics3DSliderConstraint"; jsb_cocos2d_Physics3DSliderConstraint_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DSliderConstraint_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DSliderConstraint_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DSliderConstraint_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DSliderConstraint_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DSliderConstraint_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DSliderConstraint_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DSliderConstraint_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("setPoweredAngMotor", js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredAngMotor, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getDampingLimAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingLimAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setRestitutionOrthoLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setRestitutionDirLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLinearPos", js_cocos2dx_physics3d_Physics3DSliderConstraint_getLinearPos, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getFrameOffsetA", js_cocos2dx_physics3d_Physics3DSliderConstraint_getFrameOffsetA, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getFrameOffsetB", js_cocos2dx_physics3d_Physics3DSliderConstraint_getFrameOffsetB, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setPoweredLinMotor", js_cocos2dx_physics3d_Physics3DSliderConstraint_setPoweredLinMotor, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getDampingDirAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingDirAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRestitutionLimLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionLimLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSoftnessOrthoAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessOrthoAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setSoftnessOrthoLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setSoftnessLimLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAngularPos", js_cocos2dx_physics3d_Physics3DSliderConstraint_getAngularPos, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setRestitutionLimAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setUpperLinLimit", js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperLinLimit, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDampingDirLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUpperAngLimit", js_cocos2dx_physics3d_Physics3DSliderConstraint_getUpperAngLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getDampingDirLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingDirLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSoftnessDirAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessDirAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getPoweredAngMotor", js_cocos2dx_physics3d_Physics3DSliderConstraint_getPoweredAngMotor, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setLowerAngLimit", js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerAngLimit, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setUpperAngLimit", js_cocos2dx_physics3d_Physics3DSliderConstraint_setUpperAngLimit, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setTargetLinMotorVelocity", js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetLinMotorVelocity, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDampingLimAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRestitutionLimAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionLimAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUseFrameOffset", js_cocos2dx_physics3d_Physics3DSliderConstraint_getUseFrameOffset, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSoftnessOrthoLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessOrthoLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getDampingOrthoAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingOrthoAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setUseFrameOffset", js_cocos2dx_physics3d_Physics3DSliderConstraint_setUseFrameOffset, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setLowerLinLimit", js_cocos2dx_physics3d_Physics3DSliderConstraint_setLowerLinLimit, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRestitutionDirLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionDirLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getTargetLinMotorVelocity", js_cocos2dx_physics3d_Physics3DSliderConstraint_getTargetLinMotorVelocity, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLowerLinLimit", js_cocos2dx_physics3d_Physics3DSliderConstraint_getLowerLinLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSoftnessLimLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessLimLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDampingOrthoAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setSoftnessDirAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getPoweredLinMotor", js_cocos2dx_physics3d_Physics3DSliderConstraint_getPoweredLinMotor, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setRestitutionOrthoAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionOrthoAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDampingDirAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingDirAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setFrames", js_cocos2dx_physics3d_Physics3DSliderConstraint_setFrames, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRestitutionOrthoAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionOrthoAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getMaxAngMotorForce", js_cocos2dx_physics3d_Physics3DSliderConstraint_getMaxAngMotorForce, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getDampingOrthoLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingOrthoLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUpperLinLimit", js_cocos2dx_physics3d_Physics3DSliderConstraint_getUpperLinLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setMaxLinMotorForce", js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxLinMotorForce, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRestitutionOrthoLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionOrthoLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setTargetAngMotorVelocity", js_cocos2dx_physics3d_Physics3DSliderConstraint_setTargetAngMotorVelocity, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSoftnessLimAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessLimAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setRestitutionDirAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionDirAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getDampingLimLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getDampingLimLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLowerAngLimit", js_cocos2dx_physics3d_Physics3DSliderConstraint_getLowerAngLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getRestitutionDirAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_getRestitutionDirAng, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getTargetAngMotorVelocity", js_cocos2dx_physics3d_Physics3DSliderConstraint_getTargetAngMotorVelocity, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setRestitutionLimLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setRestitutionLimLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getMaxLinMotorForce", js_cocos2dx_physics3d_Physics3DSliderConstraint_getMaxLinMotorForce, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDampingOrthoLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingOrthoLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setSoftnessOrthoAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessOrthoAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDampingLimLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setDampingLimLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setSoftnessDirLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessDirLin, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setMaxAngMotorForce", js_cocos2dx_physics3d_Physics3DSliderConstraint_setMaxAngMotorForce, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSoftnessDirLin", js_cocos2dx_physics3d_Physics3DSliderConstraint_getSoftnessDirLin, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setSoftnessLimAng", js_cocos2dx_physics3d_Physics3DSliderConstraint_setSoftnessLimAng, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUseLinearReferenceFrameA", js_cocos2dx_physics3d_Physics3DSliderConstraint_getUseLinearReferenceFrameA, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("create", js_cocos2dx_physics3d_Physics3DSliderConstraint_create, 5, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JS::RootedObject parent_proto(cx, jsb_cocos2d_Physics3DConstraint_prototype); jsb_cocos2d_Physics3DSliderConstraint_prototype = JS_InitClass( cx, global, parent_proto, jsb_cocos2d_Physics3DSliderConstraint_class, js_cocos2dx_physics3d_Physics3DSliderConstraint_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DSliderConstraint_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DSliderConstraint")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DSliderConstraint_class, proto, parent_proto); } JSClass *jsb_cocos2d_Physics3DConeTwistConstraint_class; JSObject *jsb_cocos2d_Physics3DConeTwistConstraint_prototype; bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getBFrame(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getBFrame : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getBFrame(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getBFrame : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFixThresh(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFixThresh : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFixThresh : Error processing arguments"); cobj->setFixThresh(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFixThresh : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFrameOffsetB(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFrameOffsetB : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getFrameOffsetB(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFrameOffsetB : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFrameOffsetA(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFrameOffsetA : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getFrameOffsetA(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFrameOffsetA : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFixThresh(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFixThresh : Invalid Native Object"); if (argc == 0) { double ret = cobj->getFixThresh(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFixThresh : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getSwingSpan2(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getSwingSpan2 : Invalid Native Object"); if (argc == 0) { double ret = cobj->getSwingSpan2(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getSwingSpan2 : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getSwingSpan1(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getSwingSpan1 : Invalid Native Object"); if (argc == 0) { double ret = cobj->getSwingSpan1(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getSwingSpan1 : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulse(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulse : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulse : Error processing arguments"); cobj->setMaxMotorImpulse(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulse : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFrames(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFrames : Invalid Native Object"); if (argc == 2) { cocos2d::Mat4 arg0; cocos2d::Mat4 arg1; ok &= jsval_to_matrix(cx, args.get(0), &arg0); ok &= jsval_to_matrix(cx, args.get(1), &arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFrames : Error processing arguments"); cobj->setFrames(arg0, arg1); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFrames : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getTwistAngle(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getTwistAngle : Invalid Native Object"); if (argc == 0) { double ret = cobj->getTwistAngle(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getTwistAngle : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_GetPointForAngle(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_GetPointForAngle : Invalid Native Object"); if (argc == 2) { double arg0 = 0; double arg1 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_GetPointForAngle : Error processing arguments"); cocos2d::Vec3 ret = cobj->GetPointForAngle(arg0, arg1); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_GetPointForAngle : wrong number of arguments: %d, was expecting %d", argc, 2); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulseNormalized(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulseNormalized : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulseNormalized : Error processing arguments"); cobj->setMaxMotorImpulseNormalized(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulseNormalized : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getTwistSpan(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getTwistSpan : Invalid Native Object"); if (argc == 0) { double ret = cobj->getTwistSpan(); JS::RootedValue jsret(cx); jsret = DOUBLE_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getTwistSpan : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setDamping(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setDamping : Invalid Native Object"); if (argc == 1) { double arg0 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setDamping : Error processing arguments"); cobj->setDamping(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setDamping : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setLimit : Invalid Native Object"); if (argc == 3) { double arg0 = 0; double arg1 = 0; double arg2 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); ok &= JS::ToNumber( cx, args.get(2), &arg2) && !std::isnan(arg2); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setLimit : Error processing arguments"); cobj->setLimit(arg0, arg1, arg2); args.rval().setUndefined(); return true; } if (argc == 4) { double arg0 = 0; double arg1 = 0; double arg2 = 0; double arg3 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); ok &= JS::ToNumber( cx, args.get(2), &arg2) && !std::isnan(arg2); ok &= JS::ToNumber( cx, args.get(3), &arg3) && !std::isnan(arg3); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setLimit : Error processing arguments"); cobj->setLimit(arg0, arg1, arg2, arg3); args.rval().setUndefined(); return true; } if (argc == 5) { double arg0 = 0; double arg1 = 0; double arg2 = 0; double arg3 = 0; double arg4 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); ok &= JS::ToNumber( cx, args.get(2), &arg2) && !std::isnan(arg2); ok &= JS::ToNumber( cx, args.get(3), &arg3) && !std::isnan(arg3); ok &= JS::ToNumber( cx, args.get(4), &arg4) && !std::isnan(arg4); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setLimit : Error processing arguments"); cobj->setLimit(arg0, arg1, arg2, arg3, arg4); args.rval().setUndefined(); return true; } if (argc == 6) { double arg0 = 0; double arg1 = 0; double arg2 = 0; double arg3 = 0; double arg4 = 0; double arg5 = 0; ok &= JS::ToNumber( cx, args.get(0), &arg0) && !std::isnan(arg0); ok &= JS::ToNumber( cx, args.get(1), &arg1) && !std::isnan(arg1); ok &= JS::ToNumber( cx, args.get(2), &arg2) && !std::isnan(arg2); ok &= JS::ToNumber( cx, args.get(3), &arg3) && !std::isnan(arg3); ok &= JS::ToNumber( cx, args.get(4), &arg4) && !std::isnan(arg4); ok &= JS::ToNumber( cx, args.get(5), &arg5) && !std::isnan(arg5); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setLimit : Error processing arguments"); cobj->setLimit(arg0, arg1, arg2, arg3, arg4, arg5); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setLimit : wrong number of arguments: %d, was expecting %d", argc, 3); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getAFrame(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getAFrame : Invalid Native Object"); if (argc == 0) { cocos2d::Mat4 ret = cobj->getAFrame(); JS::RootedValue jsret(cx); jsret = matrix_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getAFrame : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_enableMotor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3DConeTwistConstraint* cobj = (cocos2d::Physics3DConeTwistConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_enableMotor : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_enableMotor : Error processing arguments"); cobj->enableMotor(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_enableMotor : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_create(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; do { if (argc == 4) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DRigidBody* arg1 = nullptr; do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg2; ok &= jsval_to_matrix(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Mat4 arg3; ok &= jsval_to_matrix(cx, args.get(3), &arg3); if (!ok) { ok = true; break; } cocos2d::Physics3DConeTwistConstraint* ret = cocos2d::Physics3DConeTwistConstraint::create(arg0, arg1, arg2, arg3); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DConeTwistConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 2) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg1; ok &= jsval_to_matrix(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } cocos2d::Physics3DConeTwistConstraint* ret = cocos2d::Physics3DConeTwistConstraint::create(arg0, arg1); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3DConeTwistConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3DConeTwistConstraint_create : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3DConeTwistConstraint_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3DConeTwistConstraint* cobj = new (std::nothrow) cocos2d::Physics3DConeTwistConstraint(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3DConeTwistConstraint")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } extern JSObject *jsb_cocos2d_Physics3DConstraint_prototype; void js_register_cocos2dx_physics3d_Physics3DConeTwistConstraint(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3DConeTwistConstraint_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3DConeTwistConstraint_class->name = "Physics3DConeTwistConstraint"; jsb_cocos2d_Physics3DConeTwistConstraint_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3DConeTwistConstraint_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3DConeTwistConstraint_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3DConeTwistConstraint_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3DConeTwistConstraint_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3DConeTwistConstraint_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3DConeTwistConstraint_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3DConeTwistConstraint_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("getBFrame", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getBFrame, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setFixThresh", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFixThresh, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getFrameOffsetB", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFrameOffsetB, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getFrameOffsetA", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFrameOffsetA, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getFixThresh", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getFixThresh, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSwingSpan2", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getSwingSpan2, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSwingSpan1", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getSwingSpan1, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setMaxMotorImpulse", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulse, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setFrames", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setFrames, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getTwistAngle", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getTwistAngle, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("GetPointForAngle", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_GetPointForAngle, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setMaxMotorImpulseNormalized", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setMaxMotorImpulseNormalized, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getTwistSpan", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getTwistSpan, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setDamping", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setDamping, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setLimit", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_setLimit, 3, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAFrame", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_getAFrame, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("enableMotor", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_enableMotor, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("create", js_cocos2dx_physics3d_Physics3DConeTwistConstraint_create, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JS::RootedObject parent_proto(cx, jsb_cocos2d_Physics3DConstraint_prototype); jsb_cocos2d_Physics3DConeTwistConstraint_prototype = JS_InitClass( cx, global, parent_proto, jsb_cocos2d_Physics3DConeTwistConstraint_class, js_cocos2dx_physics3d_Physics3DConeTwistConstraint_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3DConeTwistConstraint_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3DConeTwistConstraint")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3DConeTwistConstraint_class, proto, parent_proto); } JSClass *jsb_cocos2d_Physics3D6DofConstraint_class; JSObject *jsb_cocos2d_Physics3D6DofConstraint_prototype; bool js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearLowerLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearLowerLimit : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearLowerLimit : Error processing arguments"); cobj->setLinearLowerLimit(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearLowerLimit : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_getLinearLowerLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getLinearLowerLimit : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getLinearLowerLimit(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getLinearLowerLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_getAngularUpperLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getAngularUpperLimit : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getAngularUpperLimit(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getAngularUpperLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_getUseFrameOffset(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getUseFrameOffset : Invalid Native Object"); if (argc == 0) { bool ret = cobj->getUseFrameOffset(); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getUseFrameOffset : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_getLinearUpperLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getLinearUpperLimit : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getLinearUpperLimit(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getLinearUpperLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularLowerLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularLowerLimit : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularLowerLimit : Error processing arguments"); cobj->setAngularLowerLimit(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularLowerLimit : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_isLimited(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_isLimited : Invalid Native Object"); if (argc == 1) { int arg0 = 0; ok &= jsval_to_int32(cx, args.get(0), (int32_t *)&arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_isLimited : Error processing arguments"); bool ret = cobj->isLimited(arg0); JS::RootedValue jsret(cx); jsret = BOOLEAN_TO_JSVAL(ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_isLimited : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_setUseFrameOffset(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setUseFrameOffset : Invalid Native Object"); if (argc == 1) { bool arg0; arg0 = JS::ToBoolean(args.get(0)); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setUseFrameOffset : Error processing arguments"); cobj->setUseFrameOffset(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setUseFrameOffset : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearUpperLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearUpperLimit : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearUpperLimit : Error processing arguments"); cobj->setLinearUpperLimit(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearUpperLimit : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_getAngularLowerLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getAngularLowerLimit : Invalid Native Object"); if (argc == 0) { cocos2d::Vec3 ret = cobj->getAngularLowerLimit(); JS::RootedValue jsret(cx); jsret = vector3_to_jsval(cx, ret); args.rval().set(jsret); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_getAngularLowerLimit : wrong number of arguments: %d, was expecting %d", argc, 0); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularUpperLimit(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); js_proxy_t *proxy = jsb_get_js_proxy(obj); cocos2d::Physics3D6DofConstraint* cobj = (cocos2d::Physics3D6DofConstraint *)(proxy ? proxy->ptr : NULL); JSB_PRECONDITION2( cobj, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularUpperLimit : Invalid Native Object"); if (argc == 1) { cocos2d::Vec3 arg0; ok &= jsval_to_vector3(cx, args.get(0), &arg0); JSB_PRECONDITION2(ok, cx, false, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularUpperLimit : Error processing arguments"); cobj->setAngularUpperLimit(arg0); args.rval().setUndefined(); return true; } JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularUpperLimit : wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_create(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; do { if (argc == 3) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg1; ok &= jsval_to_matrix(cx, args.get(1), &arg1); if (!ok) { ok = true; break; } bool arg2; arg2 = JS::ToBoolean(args.get(2)); if (!ok) { ok = true; break; } cocos2d::Physics3D6DofConstraint* ret = cocos2d::Physics3D6DofConstraint::create(arg0, arg1, arg2); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3D6DofConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); do { if (argc == 5) { cocos2d::Physics3DRigidBody* arg0 = nullptr; do { if (args.get(0).isNull()) { arg0 = nullptr; break; } if (!args.get(0).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(0).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg0, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Physics3DRigidBody* arg1 = nullptr; do { if (args.get(1).isNull()) { arg1 = nullptr; break; } if (!args.get(1).isObject()) { ok = false; break; } js_proxy_t *jsProxy; JS::RootedObject tmpObj(cx, args.get(1).toObjectOrNull()); jsProxy = jsb_get_js_proxy(tmpObj); arg1 = (cocos2d::Physics3DRigidBody*)(jsProxy ? jsProxy->ptr : NULL); JSB_PRECONDITION2( arg1, cx, false, "Invalid Native Object"); } while (0); if (!ok) { ok = true; break; } cocos2d::Mat4 arg2; ok &= jsval_to_matrix(cx, args.get(2), &arg2); if (!ok) { ok = true; break; } cocos2d::Mat4 arg3; ok &= jsval_to_matrix(cx, args.get(3), &arg3); if (!ok) { ok = true; break; } bool arg4; arg4 = JS::ToBoolean(args.get(4)); if (!ok) { ok = true; break; } cocos2d::Physics3D6DofConstraint* ret = cocos2d::Physics3D6DofConstraint::create(arg0, arg1, arg2, arg3, arg4); jsval jsret = JSVAL_NULL; if (ret) { jsret = OBJECT_TO_JSVAL(js_get_or_create_jsobject(cx, (cocos2d::Physics3D6DofConstraint*)ret)); } else { jsret = JSVAL_NULL; }; args.rval().set(jsret); return true; } } while (0); JS_ReportError(cx, "js_cocos2dx_physics3d_Physics3D6DofConstraint_create : wrong number of arguments"); return false; } bool js_cocos2dx_physics3d_Physics3D6DofConstraint_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cocos2d::Physics3D6DofConstraint* cobj = new (std::nothrow) cocos2d::Physics3D6DofConstraint(); js_type_class_t *typeClass = js_get_type_from_native(cobj); // link the native object with the javascript object JS::RootedObject jsobj(cx, jsb_ref_create_jsobject(cx, cobj, typeClass, "cocos2d::Physics3D6DofConstraint")); args.rval().set(OBJECT_TO_JSVAL(jsobj)); if (JS_HasProperty(cx, jsobj, "_ctor", &ok) && ok) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(jsobj), "_ctor", args); return true; } extern JSObject *jsb_cocos2d_Physics3DConstraint_prototype; void js_register_cocos2dx_physics3d_Physics3D6DofConstraint(JSContext *cx, JS::HandleObject global) { jsb_cocos2d_Physics3D6DofConstraint_class = (JSClass *)calloc(1, sizeof(JSClass)); jsb_cocos2d_Physics3D6DofConstraint_class->name = "Physics3D6DofConstraint"; jsb_cocos2d_Physics3D6DofConstraint_class->addProperty = JS_PropertyStub; jsb_cocos2d_Physics3D6DofConstraint_class->delProperty = JS_DeletePropertyStub; jsb_cocos2d_Physics3D6DofConstraint_class->getProperty = JS_PropertyStub; jsb_cocos2d_Physics3D6DofConstraint_class->setProperty = JS_StrictPropertyStub; jsb_cocos2d_Physics3D6DofConstraint_class->enumerate = JS_EnumerateStub; jsb_cocos2d_Physics3D6DofConstraint_class->resolve = JS_ResolveStub; jsb_cocos2d_Physics3D6DofConstraint_class->convert = JS_ConvertStub; jsb_cocos2d_Physics3D6DofConstraint_class->flags = JSCLASS_HAS_RESERVED_SLOTS(2); static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("setLinearLowerLimit", js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearLowerLimit, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLinearLowerLimit", js_cocos2dx_physics3d_Physics3D6DofConstraint_getLinearLowerLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAngularUpperLimit", js_cocos2dx_physics3d_Physics3D6DofConstraint_getAngularUpperLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getUseFrameOffset", js_cocos2dx_physics3d_Physics3D6DofConstraint_getUseFrameOffset, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getLinearUpperLimit", js_cocos2dx_physics3d_Physics3D6DofConstraint_getLinearUpperLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setAngularLowerLimit", js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularLowerLimit, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("isLimited", js_cocos2dx_physics3d_Physics3D6DofConstraint_isLimited, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setUseFrameOffset", js_cocos2dx_physics3d_Physics3D6DofConstraint_setUseFrameOffset, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setLinearUpperLimit", js_cocos2dx_physics3d_Physics3D6DofConstraint_setLinearUpperLimit, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getAngularLowerLimit", js_cocos2dx_physics3d_Physics3D6DofConstraint_getAngularLowerLimit, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setAngularUpperLimit", js_cocos2dx_physics3d_Physics3D6DofConstraint_setAngularUpperLimit, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("create", js_cocos2dx_physics3d_Physics3D6DofConstraint_create, 3, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; JS::RootedObject parent_proto(cx, jsb_cocos2d_Physics3DConstraint_prototype); jsb_cocos2d_Physics3D6DofConstraint_prototype = JS_InitClass( cx, global, parent_proto, jsb_cocos2d_Physics3D6DofConstraint_class, js_cocos2dx_physics3d_Physics3D6DofConstraint_constructor, 0, // constructor properties, funcs, NULL, // no static properties st_funcs); JS::RootedObject proto(cx, jsb_cocos2d_Physics3D6DofConstraint_prototype); JS::RootedValue className(cx, std_string_to_jsval(cx, "Physics3D6DofConstraint")); JS_SetProperty(cx, proto, "_className", className); JS_SetProperty(cx, proto, "__nativeObj", JS::TrueHandleValue); JS_SetProperty(cx, proto, "__is_ref", JS::TrueHandleValue); // add the proto and JSClass to the type->js info hash table jsb_register_class(cx, jsb_cocos2d_Physics3D6DofConstraint_class, proto, parent_proto); } void register_all_cocos2dx_physics3d(JSContext* cx, JS::HandleObject obj) { // Get the ns JS::RootedObject ns(cx); get_or_create_js_obj(cx, obj, "jsb", &ns); js_register_cocos2dx_physics3d_Physics3DConstraint(cx, ns); js_register_cocos2dx_physics3d_Physics3D6DofConstraint(cx, ns); js_register_cocos2dx_physics3d_Physics3DObject(cx, ns); js_register_cocos2dx_physics3d_Physics3DRigidBody(cx, ns); js_register_cocos2dx_physics3d_Physics3DWorld(cx, ns); js_register_cocos2dx_physics3d_Physics3DSliderConstraint(cx, ns); js_register_cocos2dx_physics3d_Physics3DComponent(cx, ns); js_register_cocos2dx_physics3d_Physics3DConeTwistConstraint(cx, ns); js_register_cocos2dx_physics3d_Physics3DPointToPointConstraint(cx, ns); js_register_cocos2dx_physics3d_PhysicsSprite3D(cx, ns); js_register_cocos2dx_physics3d_Physics3DHingeConstraint(cx, ns); js_register_cocos2dx_physics3d_Physics3DShape(cx, ns); } #endif //#if CC_USE_3D_PHYSICS && CC_ENABLE_BULLET_INTEGRATION