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# include "jsb_cocos2dx_physics3d_auto.hpp"
# include "cocos2d_specifics.hpp"
# include "CCPhysics3D.h"
template < class T >
static bool dummy_constructor ( JSContext * cx , uint32_t argc , jsval * vp ) {
JS : : CallArgs args = JS : : CallArgsFromVp ( argc , vp ) ;
JS : : RootedValue initializing ( cx ) ;
bool isNewValid = true ;
JS : : RootedObject global ( cx , ScriptingCore : : getInstance ( ) - > getGlobalObject ( ) ) ;
isNewValid = JS_GetProperty ( cx , global , " initializing " , & initializing ) & & initializing . toBoolean ( ) ;
if ( isNewValid )
{
TypeTest < T > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject _tmp ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( _tmp ) ) ;
return true ;
}
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_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 ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < btCollisionShape > ( cx , ( btCollisionShape * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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_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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 " ) ;
cocos2d : : Physics3DShape * ret = cocos2d : : Physics3DShape : : createBox ( arg0 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DShape > ( cx , ( cocos2d : : Physics3DShape * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( 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 ;
double arg1 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
JSB_PRECONDITION2 ( ok , cx , false , " js_cocos2dx_physics3d_Physics3DShape_createCylinder : Error processing arguments " ) ;
cocos2d : : Physics3DShape * ret = cocos2d : : Physics3DShape : : createCylinder ( arg0 , arg1 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DShape > ( cx , ( cocos2d : : Physics3DShape * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( 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 ;
int arg1 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 " ) ;
cocos2d : : Physics3DShape * ret = cocos2d : : Physics3DShape : : createConvexHull ( arg0 , arg1 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DShape > ( cx , ( cocos2d : : Physics3DShape * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( 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 ;
double arg1 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
JSB_PRECONDITION2 ( ok , cx , false , " js_cocos2dx_physics3d_Physics3DShape_createCapsule : Error processing arguments " ) ;
cocos2d : : Physics3DShape * ret = cocos2d : : Physics3DShape : : createCapsule ( arg0 , arg1 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DShape > ( cx , ( cocos2d : : Physics3DShape * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
JSB_PRECONDITION2 ( ok , cx , false , " js_cocos2dx_physics3d_Physics3DShape_createSphere : Error processing arguments " ) ;
cocos2d : : Physics3DShape * ret = cocos2d : : Physics3DShape : : createSphere ( arg0 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DShape > ( cx , ( cocos2d : : Physics3DShape * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
JS_ReportError ( cx , " js_cocos2dx_physics3d_Physics3DShape_createSphere : wrong number of arguments " ) ;
return false ;
}
void js_cocos2d_Physics3DShape_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DShape) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DShape_finalize ;
jsb_cocos2d_Physics3DShape_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_PS_END
} ;
static JSFunctionSpec funcs [ ] = {
JS_FN ( " getbtShape " , js_cocos2dx_physics3d_Physics3DShape_getbtShape , 0 , 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 ( ) , // parent proto
jsb_cocos2d_Physics3DShape_class ,
dummy_constructor < cocos2d : : Physics3DShape > , 0 , // no constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DShape", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DShape > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DShape_class ;
p - > proto = jsb_cocos2d_Physics3DShape_prototype ;
p - > parentProto = NULL ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
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 ;
# 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 ( ) ;
jsval jsret = JSVAL_NULL ;
# 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DWorld > ( cx , ( cocos2d : : Physics3DWorld * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ;
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 < void ( const cocos2d : : Physics3DCollisionInfo & ) > & ret = cobj - > getCollisionCallback ( ) ;
jsval jsret = JSVAL_NULL ;
# 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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_cocos2d_Physics3DObject_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DObject) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DObject_finalize ;
jsb_cocos2d_Physics3DObject_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
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 ( ) , // parent proto
jsb_cocos2d_Physics3DObject_class ,
empty_constructor , 0 ,
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DObject", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DObject > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DObject_class ;
p - > proto = jsb_cocos2d_Physics3DObject_prototype ;
p - > parentProto = NULL ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 )
{
JS : : CallArgs args = JS : : CallArgsFromVp ( argc , vp ) ;
bool ok = true ;
JS : : RootedObject obj ( cx ) ;
cocos2d : : Physics3DRigidBody * cobj = NULL ;
obj = args . thisv ( ) . toObjectOrNull ( ) ;
js_proxy_t * proxy = jsb_get_js_proxy ( obj ) ;
cobj = ( cocos2d : : Physics3DRigidBody * ) ( proxy ? proxy - > ptr : NULL ) ;
JSB_PRECONDITION2 ( cobj , cx , false , " js_cocos2dx_physics3d_Physics3DRigidBody_setAngularFactor : Invalid Native Object " ) ;
do {
if ( argc = = 1 ) {
double arg0 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
do {
2015-05-29 13:46:22 +08:00
if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
2015-05-22 14:55:54 +08:00
if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < btRigidBody > ( cx , ( btRigidBody * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
cocos2d : : Vec3 arg1 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
double arg1 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
# pragma warning NO CONVERSION TO NATIVE FOR Physics3DRigidBodyDes*
ok = false ;
JSB_PRECONDITION2 ( ok , cx , false , " js_cocos2dx_physics3d_Physics3DRigidBody_init : Error processing arguments " ) ;
bool ret = cobj - > init ( arg0 ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 )
{
JS : : CallArgs args = JS : : CallArgsFromVp ( argc , vp ) ;
bool ok = true ;
JS : : RootedObject obj ( cx ) ;
cocos2d : : Physics3DRigidBody * cobj = NULL ;
obj = args . thisv ( ) . toObjectOrNull ( ) ;
js_proxy_t * proxy = jsb_get_js_proxy ( obj ) ;
cobj = ( cocos2d : : Physics3DRigidBody * ) ( proxy ? proxy - > ptr : NULL ) ;
JSB_PRECONDITION2 ( cobj , cx , false , " js_cocos2dx_physics3d_Physics3DRigidBody_removeConstraint : Invalid Native Object " ) ;
do {
if ( argc = = 1 ) {
unsigned int arg0 ;
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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
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 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DConstraint > ( cx , ( cocos2d : : Physics3DConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : Physics3DRigidBody > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::Physics3DRigidBody " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
extern JSObject * jsb_cocos2d_Physics3DObject_prototype ;
void js_cocos2d_Physics3DRigidBody_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DRigidBody) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DRigidBody_finalize ;
jsb_cocos2d_Physics3DRigidBody_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
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 ;
jsb_cocos2d_Physics3DRigidBody_prototype = JS_InitClass (
cx , global ,
JS : : RootedObject ( cx , jsb_cocos2d_Physics3DObject_prototype ) ,
jsb_cocos2d_Physics3DRigidBody_class ,
js_cocos2dx_physics3d_Physics3DRigidBody_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DRigidBody", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DRigidBody > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DRigidBody_class ;
p - > proto = jsb_cocos2d_Physics3DRigidBody_prototype ;
p - > parentProto = jsb_cocos2d_Physics3DObject_prototype ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
JSClass * jsb_cocos2d_Physics3DComponent_class ;
JSObject * jsb_cocos2d_Physics3DComponent_prototype ;
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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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_syncToPhysics ( 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_syncToPhysics : Invalid Native Object " ) ;
if ( argc = = 0 ) {
cobj - > syncToPhysics ( ) ;
args . rval ( ) . setUndefined ( ) ;
return true ;
}
JS_ReportError ( cx , " js_cocos2dx_physics3d_Physics3DComponent_syncToPhysics : wrong number of arguments: %d, was expecting %d " , argc , 0 ) ;
return false ;
}
bool js_cocos2dx_physics3d_Physics3DComponent_syncToNode ( 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_syncToNode : Invalid Native Object " ) ;
if ( argc = = 0 ) {
cobj - > syncToNode ( ) ;
args . rval ( ) . setUndefined ( ) ;
return true ;
}
JS_ReportError ( cx , " js_cocos2dx_physics3d_Physics3DComponent_syncToNode : 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 ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DObject > ( cx , ( cocos2d : : Physics3DObject * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DComponent > ( cx , ( cocos2d : : Physics3DComponent * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 2 ) {
cocos2d : : Physics3DObject * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DComponent > ( cx , ( cocos2d : : Physics3DComponent * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 3 ) {
cocos2d : : Physics3DObject * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DComponent > ( cx , ( cocos2d : : Physics3DComponent * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 0 ) {
cocos2d : : Physics3DComponent * ret = cocos2d : : Physics3DComponent : : create ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DComponent > ( cx , ( cocos2d : : Physics3DComponent * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : Physics3DComponent > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::Physics3DComponent " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
extern JSObject * jsb_cocos2d_Component_prototype ;
void js_cocos2d_Physics3DComponent_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DComponent) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DComponent_finalize ;
jsb_cocos2d_Physics3DComponent_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_PS_END
} ;
static JSFunctionSpec funcs [ ] = {
JS_FN ( " addToPhysicsWorld " , js_cocos2dx_physics3d_Physics3DComponent_addToPhysicsWorld , 1 , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_FN ( " syncToPhysics " , js_cocos2dx_physics3d_Physics3DComponent_syncToPhysics , 0 , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_FN ( " syncToNode " , js_cocos2dx_physics3d_Physics3DComponent_syncToNode , 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
} ;
jsb_cocos2d_Physics3DComponent_prototype = JS_InitClass (
cx , global ,
JS : : RootedObject ( cx , jsb_cocos2d_Component_prototype ) ,
jsb_cocos2d_Physics3DComponent_class ,
js_cocos2dx_physics3d_Physics3DComponent_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DComponent", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DComponent > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DComponent_class ;
p - > proto = jsb_cocos2d_Physics3DComponent_prototype ;
p - > parentProto = jsb_cocos2d_Component_prototype ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
JSClass * jsb_cocos2d_PhysicsSprite3D_class ;
JSObject * jsb_cocos2d_PhysicsSprite3D_prototype ;
bool js_cocos2dx_physics3d_PhysicsSprite3D_syncToPhysics ( 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_syncToPhysics : Invalid Native Object " ) ;
if ( argc = = 0 ) {
cobj - > syncToPhysics ( ) ;
args . rval ( ) . setUndefined ( ) ;
return true ;
}
JS_ReportError ( cx , " js_cocos2dx_physics3d_PhysicsSprite3D_syncToPhysics : wrong number of arguments: %d, was expecting %d " , argc , 0 ) ;
return false ;
}
bool js_cocos2dx_physics3d_PhysicsSprite3D_syncToNode ( 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_syncToNode : Invalid Native Object " ) ;
if ( argc = = 0 ) {
cobj - > syncToNode ( ) ;
args . rval ( ) . setUndefined ( ) ;
return true ;
}
JS_ReportError ( cx , " js_cocos2dx_physics3d_PhysicsSprite3D_syncToNode : 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 ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DObject > ( cx , ( cocos2d : : Physics3DObject * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : PhysicsSprite3D > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::PhysicsSprite3D " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
extern JSObject * jsb_cocos2d_Sprite3D_prototype ;
void js_cocos2d_PhysicsSprite3D_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (PhysicsSprite3D) " , obj ) ;
}
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 - > finalize = js_cocos2d_PhysicsSprite3D_finalize ;
jsb_cocos2d_PhysicsSprite3D_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_PS_END
} ;
static JSFunctionSpec funcs [ ] = {
JS_FN ( " syncToPhysics " , js_cocos2dx_physics3d_PhysicsSprite3D_syncToPhysics , 0 , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_FN ( " syncToNode " , js_cocos2dx_physics3d_PhysicsSprite3D_syncToNode , 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 ;
jsb_cocos2d_PhysicsSprite3D_prototype = JS_InitClass (
cx , global ,
JS : : RootedObject ( cx , jsb_cocos2d_Sprite3D_prototype ) ,
jsb_cocos2d_PhysicsSprite3D_class ,
js_cocos2dx_physics3d_PhysicsSprite3D_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "PhysicsSprite3D", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : PhysicsSprite3D > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_PhysicsSprite3D_class ;
p - > proto = jsb_cocos2d_PhysicsSprite3D_prototype ;
p - > parentProto = jsb_cocos2d_Sprite3D_prototype ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
JSClass * jsb_cocos2d_Physics3DWorld_class ;
JSObject * jsb_cocos2d_Physics3DWorld_prototype ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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_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 ;
# 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 ) ;
jsval jsret = JSVAL_NULL ;
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_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 ;
do {
2015-05-29 13:46:22 +08:00
if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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_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 ( ) ;
jsval jsret = JSVAL_NULL ;
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_rayCast ( 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_rayCast : Invalid Native Object " ) ;
if ( argc = = 3 ) {
cocos2d : : Vec3 arg0 ;
cocos2d : : Vec3 arg1 ;
cocos2d : : Physics3DWorld : : HitResult * arg2 ;
ok & = jsval_to_vector3 ( cx , args . get ( 0 ) , & arg0 ) ;
ok & = jsval_to_vector3 ( cx , args . get ( 1 ) , & arg1 ) ;
# pragma warning NO CONVERSION TO NATIVE FOR HitResult*
ok = false ;
JSB_PRECONDITION2 ( ok , cx , false , " js_cocos2dx_physics3d_Physics3DWorld_rayCast : Error processing arguments " ) ;
bool ret = cobj - > rayCast ( arg0 , arg1 , arg2 ) ;
jsval jsret = JSVAL_NULL ;
jsret = BOOLEAN_TO_JSVAL ( ret ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
JS_ReportError ( cx , " js_cocos2dx_physics3d_Physics3DWorld_rayCast : wrong number of arguments: %d, was expecting %d " , argc , 3 ) ;
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_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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DObject > ( cx , ( cocos2d : : Physics3DObject * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
bool arg1 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
cocos2d : : Mat4 arg1 ;
cocos2d : : Mat4 arg2 ;
cocos2d : : Physics3DWorld : : HitResult * arg3 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ) ;
jsval jsret = JSVAL_NULL ;
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 ;
# pragma warning NO CONVERSION TO NATIVE FOR Physics3DWorldDes*
ok = false ;
JSB_PRECONDITION2 ( ok , cx , false , " js_cocos2dx_physics3d_Physics3DWorld_create : Error processing arguments " ) ;
cocos2d : : Physics3DWorld * ret = cocos2d : : Physics3DWorld : : create ( arg0 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DWorld > ( cx , ( cocos2d : : Physics3DWorld * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( 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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : Physics3DWorld > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::Physics3DWorld " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
void js_cocos2d_Physics3DWorld_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DWorld) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DWorld_finalize ;
jsb_cocos2d_Physics3DWorld_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_PS_END
} ;
static JSFunctionSpec funcs [ ] = {
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 ( " init " , js_cocos2dx_physics3d_Physics3DWorld_init , 1 , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_FN ( " removePhysics3DConstraint " , js_cocos2dx_physics3d_Physics3DWorld_removePhysics3DConstraint , 1 , 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 ( " rayCast " , js_cocos2dx_physics3d_Physics3DWorld_rayCast , 3 , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
JS_FN ( " removeAllPhysics3DObjects " , js_cocos2dx_physics3d_Physics3DWorld_removeAllPhysics3DObjects , 0 , 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 ( ) , // parent proto
jsb_cocos2d_Physics3DWorld_class ,
js_cocos2dx_physics3d_Physics3DWorld_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DWorld", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DWorld > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DWorld_class ;
p - > proto = jsb_cocos2d_Physics3DWorld_prototype ;
p - > parentProto = NULL ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
# 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DRigidBody > ( cx , ( cocos2d : : Physics3DRigidBody * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DRigidBody > ( cx , ( cocos2d : : Physics3DRigidBody * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
# 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 ( ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < btTypedConstraint > ( cx , ( btTypedConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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_cocos2d_Physics3DConstraint_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DConstraint) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DConstraint_finalize ;
jsb_cocos2d_Physics3DConstraint_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
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 ( ) , // parent proto
jsb_cocos2d_Physics3DConstraint_class ,
dummy_constructor < cocos2d : : Physics3DConstraint > , 0 , // no constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DConstraint", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DConstraint > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DConstraint_class ;
p - > proto = jsb_cocos2d_Physics3DConstraint_prototype ;
p - > parentProto = NULL ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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_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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 1 ) . isNull ( ) ) { arg1 = nullptr ; break ; }
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if ( ! args . get ( 1 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DPointToPointConstraint > ( cx , ( cocos2d : : Physics3DPointToPointConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 2 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
2015-05-29 13:46:22 +08:00
if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
2015-05-22 14:55:54 +08:00
if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DPointToPointConstraint > ( cx , ( cocos2d : : Physics3DPointToPointConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : Physics3DPointToPointConstraint > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::Physics3DPointToPointConstraint " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
extern JSObject * jsb_cocos2d_Physics3DConstraint_prototype ;
void js_cocos2d_Physics3DPointToPointConstraint_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DPointToPointConstraint) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DPointToPointConstraint_finalize ;
jsb_cocos2d_Physics3DPointToPointConstraint_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
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 ( " 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
} ;
jsb_cocos2d_Physics3DPointToPointConstraint_prototype = JS_InitClass (
cx , global ,
JS : : RootedObject ( cx , jsb_cocos2d_Physics3DConstraint_prototype ) ,
jsb_cocos2d_Physics3DPointToPointConstraint_class ,
js_cocos2dx_physics3d_Physics3DPointToPointConstraint_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DPointToPointConstraint", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DPointToPointConstraint > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DPointToPointConstraint_class ;
p - > proto = jsb_cocos2d_Physics3DPointToPointConstraint_prototype ;
p - > parentProto = jsb_cocos2d_Physics3DConstraint_prototype ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
JSClass * jsb_cocos2d_Physics3DHingeConstraint_class ;
JSObject * jsb_cocos2d_Physics3DHingeConstraint_prototype ;
bool js_cocos2dx_physics3d_Physics3DHingeConstraint_getHingeAngle ( JSContext * cx , uint32_t argc , jsval * vp )
{
JS : : CallArgs args = JS : : CallArgsFromVp ( argc , vp ) ;
bool ok = true ;
JS : : RootedObject obj ( cx ) ;
cocos2d : : Physics3DHingeConstraint * cobj = NULL ;
obj = args . thisv ( ) . toObjectOrNull ( ) ;
js_proxy_t * proxy = jsb_get_js_proxy ( obj ) ;
cobj = ( cocos2d : : Physics3DHingeConstraint * ) ( proxy ? proxy - > ptr : NULL ) ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
double arg2 ;
arg0 = JS : : ToBoolean ( args . get ( 0 ) ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 2 ) , & arg2 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
double arg1 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! 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 ;
double arg1 ;
double arg2 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 2 ) , & arg2 ) & & ! 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 ;
double arg1 ;
double arg2 ;
double arg3 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 2 ) , & arg2 ) & & ! isnan ( arg2 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 3 ) , & arg3 ) & & ! 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 ;
double arg1 ;
double arg2 ;
double arg3 ;
double arg4 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 2 ) , & arg2 ) & & ! isnan ( arg2 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 3 ) , & arg3 ) & & ! isnan ( arg3 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 4 ) , & arg4 ) & & ! 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 )
{
JS : : CallArgs args = JS : : CallArgsFromVp ( argc , vp ) ;
bool ok = true ;
JS : : RootedObject obj ( cx ) ;
cocos2d : : Physics3DHingeConstraint * cobj = NULL ;
obj = args . thisv ( ) . toObjectOrNull ( ) ;
js_proxy_t * proxy = jsb_get_js_proxy ( obj ) ;
cobj = ( cocos2d : : Physics3DHingeConstraint * ) ( proxy ? proxy - > ptr : NULL ) ;
JSB_PRECONDITION2 ( cobj , cx , false , " js_cocos2dx_physics3d_Physics3DHingeConstraint_setMotorTarget : Invalid Native Object " ) ;
do {
if ( argc = = 2 ) {
double arg0 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
if ( ! ok ) { ok = true ; break ; }
double arg1 ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DHingeConstraint > ( cx , ( cocos2d : : Physics3DHingeConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 4 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DHingeConstraint > ( cx , ( cocos2d : : Physics3DHingeConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 2 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DHingeConstraint > ( cx , ( cocos2d : : Physics3DHingeConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 3 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DHingeConstraint > ( cx , ( cocos2d : : Physics3DHingeConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 6 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 1 ) . isNull ( ) ) { arg1 = nullptr ; break ; }
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if ( ! args . get ( 1 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DHingeConstraint > ( cx , ( cocos2d : : Physics3DHingeConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 7 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 1 ) . isNull ( ) ) { arg1 = nullptr ; break ; }
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if ( ! args . get ( 1 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DHingeConstraint > ( cx , ( cocos2d : : Physics3DHingeConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 4 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 1 ) . isNull ( ) ) { arg1 = nullptr ; break ; }
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if ( ! args . get ( 1 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DHingeConstraint > ( cx , ( cocos2d : : Physics3DHingeConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 5 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 1 ) . isNull ( ) ) { arg1 = nullptr ; break ; }
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if ( ! args . get ( 1 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DHingeConstraint > ( cx , ( cocos2d : : Physics3DHingeConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : Physics3DHingeConstraint > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::Physics3DHingeConstraint " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
extern JSObject * jsb_cocos2d_Physics3DConstraint_prototype ;
void js_cocos2d_Physics3DHingeConstraint_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DHingeConstraint) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DHingeConstraint_finalize ;
jsb_cocos2d_Physics3DHingeConstraint_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
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
} ;
jsb_cocos2d_Physics3DHingeConstraint_prototype = JS_InitClass (
cx , global ,
JS : : RootedObject ( cx , jsb_cocos2d_Physics3DConstraint_prototype ) ,
jsb_cocos2d_Physics3DHingeConstraint_class ,
js_cocos2dx_physics3d_Physics3DHingeConstraint_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DHingeConstraint", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DHingeConstraint > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DHingeConstraint_class ;
p - > proto = jsb_cocos2d_Physics3DHingeConstraint_prototype ;
p - > parentProto = jsb_cocos2d_Physics3DConstraint_prototype ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
cocos2d : : Physics3DRigidBody * arg1 ;
cocos2d : : Mat4 arg2 ;
cocos2d : : Mat4 arg3 ;
bool arg4 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 {
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if ( args . get ( 1 ) . isNull ( ) ) { arg1 = nullptr ; break ; }
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if ( ! args . get ( 1 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 " ) ;
cocos2d : : Physics3DSliderConstraint * ret = cocos2d : : Physics3DSliderConstraint : : create ( arg0 , arg1 , arg2 , arg3 , arg4 ) ;
jsval jsret = JSVAL_NULL ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DSliderConstraint > ( cx , ( cocos2d : : Physics3DSliderConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( 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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : Physics3DSliderConstraint > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::Physics3DSliderConstraint " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
extern JSObject * jsb_cocos2d_Physics3DConstraint_prototype ;
void js_cocos2d_Physics3DSliderConstraint_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DSliderConstraint) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DSliderConstraint_finalize ;
jsb_cocos2d_Physics3DSliderConstraint_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
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
} ;
jsb_cocos2d_Physics3DSliderConstraint_prototype = JS_InitClass (
cx , global ,
JS : : RootedObject ( cx , jsb_cocos2d_Physics3DConstraint_prototype ) ,
jsb_cocos2d_Physics3DSliderConstraint_class ,
js_cocos2dx_physics3d_Physics3DSliderConstraint_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DSliderConstraint", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DSliderConstraint > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DSliderConstraint_class ;
p - > proto = jsb_cocos2d_Physics3DSliderConstraint_prototype ;
p - > parentProto = jsb_cocos2d_Physics3DConstraint_prototype ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
double arg1 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
JSB_PRECONDITION2 ( ok , cx , false , " js_cocos2dx_physics3d_Physics3DConeTwistConstraint_GetPointForAngle : Error processing arguments " ) ;
cocos2d : : Vec3 ret = cobj - > GetPointForAngle ( arg0 , arg1 ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! 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 ;
double arg1 ;
double arg2 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 2 ) , & arg2 ) & & ! 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 ;
double arg1 ;
double arg2 ;
double arg3 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 2 ) , & arg2 ) & & ! isnan ( arg2 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 3 ) , & arg3 ) & & ! 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 ;
double arg1 ;
double arg2 ;
double arg3 ;
double arg4 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 2 ) , & arg2 ) & & ! isnan ( arg2 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 3 ) , & arg3 ) & & ! isnan ( arg3 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 4 ) , & arg4 ) & & ! 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 ;
double arg1 ;
double arg2 ;
double arg3 ;
double arg4 ;
double arg5 ;
ok & = JS : : ToNumber ( cx , args . get ( 0 ) , & arg0 ) & & ! isnan ( arg0 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 1 ) , & arg1 ) & & ! isnan ( arg1 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 2 ) , & arg2 ) & & ! isnan ( arg2 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 3 ) , & arg3 ) & & ! isnan ( arg3 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 4 ) , & arg4 ) & & ! isnan ( arg4 ) ;
ok & = JS : : ToNumber ( cx , args . get ( 5 ) , & arg5 ) & & ! 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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 1 ) . isNull ( ) ) { arg1 = nullptr ; break ; }
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if ( ! args . get ( 1 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DConeTwistConstraint > ( cx , ( cocos2d : : Physics3DConeTwistConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 2 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3DConeTwistConstraint > ( cx , ( cocos2d : : Physics3DConeTwistConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : Physics3DConeTwistConstraint > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::Physics3DConeTwistConstraint " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
extern JSObject * jsb_cocos2d_Physics3DConstraint_prototype ;
void js_cocos2d_Physics3DConeTwistConstraint_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3DConeTwistConstraint) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3DConeTwistConstraint_finalize ;
jsb_cocos2d_Physics3DConeTwistConstraint_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
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
} ;
jsb_cocos2d_Physics3DConeTwistConstraint_prototype = JS_InitClass (
cx , global ,
JS : : RootedObject ( cx , jsb_cocos2d_Physics3DConstraint_prototype ) ,
jsb_cocos2d_Physics3DConeTwistConstraint_class ,
js_cocos2dx_physics3d_Physics3DConeTwistConstraint_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3DConeTwistConstraint", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3DConeTwistConstraint > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3DConeTwistConstraint_class ;
p - > proto = jsb_cocos2d_Physics3DConeTwistConstraint_prototype ;
p - > parentProto = jsb_cocos2d_Physics3DConstraint_prototype ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
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 ) ;
jsval jsret = JSVAL_NULL ;
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 ( ) ;
jsval jsret = JSVAL_NULL ;
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 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3D6DofConstraint > ( cx , ( cocos2d : : Physics3D6DofConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
args . rval ( ) . set ( jsret ) ;
return true ;
}
} while ( 0 ) ;
do {
if ( argc = = 5 ) {
cocos2d : : Physics3DRigidBody * arg0 ;
do {
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if ( args . get ( 0 ) . isNull ( ) ) { arg0 = nullptr ; break ; }
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if ( ! args . get ( 0 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
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if ( args . get ( 1 ) . isNull ( ) ) { arg1 = nullptr ; break ; }
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if ( ! args . get ( 1 ) . isObject ( ) ) { ok = false ; break ; }
js_proxy_t * jsProxy ;
JSObject * tmpObj = 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 ;
do {
if ( ret ) {
js_proxy_t * jsProxy = js_get_or_create_proxy < cocos2d : : Physics3D6DofConstraint > ( cx , ( cocos2d : : Physics3D6DofConstraint * ) ret ) ;
jsret = OBJECT_TO_JSVAL ( jsProxy - > obj ) ;
} else {
jsret = JSVAL_NULL ;
}
} while ( 0 ) ;
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 ( ) ;
cocos2d : : Ref * _ccobj = dynamic_cast < cocos2d : : Ref * > ( cobj ) ;
if ( _ccobj ) {
_ccobj - > autorelease ( ) ;
}
TypeTest < cocos2d : : Physics3D6DofConstraint > t ;
js_type_class_t * typeClass = nullptr ;
std : : string typeName = t . s_name ( ) ;
auto typeMapIter = _js_global_type_map . find ( typeName ) ;
CCASSERT ( typeMapIter ! = _js_global_type_map . end ( ) , " Can't find the class type! " ) ;
typeClass = typeMapIter - > second ;
CCASSERT ( typeClass , " The value is null. " ) ;
// JSObject *obj = JS_NewObject(cx, typeClass->jsclass, typeClass->proto, typeClass->parentProto);
JS : : RootedObject proto ( cx , typeClass - > proto . get ( ) ) ;
JS : : RootedObject parent ( cx , typeClass - > parentProto . get ( ) ) ;
JS : : RootedObject obj ( cx , JS_NewObject ( cx , typeClass - > jsclass , proto , parent ) ) ;
args . rval ( ) . set ( OBJECT_TO_JSVAL ( obj ) ) ;
// link the native object with the javascript object
js_proxy_t * p = jsb_new_proxy ( cobj , obj ) ;
AddNamedObjectRoot ( cx , & p - > obj , " cocos2d::Physics3D6DofConstraint " ) ;
if ( JS_HasProperty ( cx , obj , " _ctor " , & ok ) & & ok )
ScriptingCore : : getInstance ( ) - > executeFunctionWithOwner ( OBJECT_TO_JSVAL ( obj ) , " _ctor " , args ) ;
return true ;
}
extern JSObject * jsb_cocos2d_Physics3DConstraint_prototype ;
void js_cocos2d_Physics3D6DofConstraint_finalize ( JSFreeOp * fop , JSObject * obj ) {
CCLOGINFO ( " jsbindings: finalizing JS object %p (Physics3D6DofConstraint) " , obj ) ;
}
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 - > finalize = js_cocos2d_Physics3D6DofConstraint_finalize ;
jsb_cocos2d_Physics3D6DofConstraint_class - > flags = JSCLASS_HAS_RESERVED_SLOTS ( 2 ) ;
static JSPropertySpec properties [ ] = {
JS_PSG ( " __nativeObj " , js_is_native_obj , JSPROP_PERMANENT | JSPROP_ENUMERATE ) ,
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
} ;
jsb_cocos2d_Physics3D6DofConstraint_prototype = JS_InitClass (
cx , global ,
JS : : RootedObject ( cx , jsb_cocos2d_Physics3DConstraint_prototype ) ,
jsb_cocos2d_Physics3D6DofConstraint_class ,
js_cocos2dx_physics3d_Physics3D6DofConstraint_constructor , 0 , // constructor
properties ,
funcs ,
NULL , // no static properties
st_funcs ) ;
// make the class enumerable in the registered namespace
// bool found;
//FIXME: Removed in Firefox v27
// JS_SetPropertyAttributes(cx, global, "Physics3D6DofConstraint", JSPROP_ENUMERATE | JSPROP_READONLY, &found);
// add the proto and JSClass to the type->js info hash table
TypeTest < cocos2d : : Physics3D6DofConstraint > t ;
js_type_class_t * p ;
std : : string typeName = t . s_name ( ) ;
if ( _js_global_type_map . find ( typeName ) = = _js_global_type_map . end ( ) )
{
p = ( js_type_class_t * ) malloc ( sizeof ( js_type_class_t ) ) ;
p - > jsclass = jsb_cocos2d_Physics3D6DofConstraint_class ;
p - > proto = jsb_cocos2d_Physics3D6DofConstraint_prototype ;
p - > parentProto = jsb_cocos2d_Physics3DConstraint_prototype ;
_js_global_type_map . insert ( std : : make_pair ( typeName , p ) ) ;
}
}
void register_all_cocos2dx_physics3d ( JSContext * cx , JS : : HandleObject obj ) {
// Get the ns
JS : : RootedObject ns ( cx ) ;
get_or_create_js_obj ( cx , obj , " cc " , & 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 ) ;
}