ice_invokeAsync(byte[] inEncaps, Ice.Current current) { bool twoway = current.requestId > 0; Ice.ObjectPrx obj = current.con.createProxy(current.id); if (!twoway) { if (current.facet.Length != 0) { obj = obj.ice_facet(current.facet); } return(obj.ice_oneway().ice_invokeAsync(current.operation, current.mode, inEncaps, current.ctx)); } else { if (current.facet.Length != 0) { obj = obj.ice_facet(current.facet); } return(obj.ice_invokeAsync(current.operation, current.mode, inEncaps, current.ctx)); } }
ice_invokeAsync(byte[] inEncaps, Ice.Current current) { bool twoway = current.requestId > 0; Ice.ObjectPrx obj = current.con.createProxy(current.id); if (!twoway) { if (_startBatch) { _startBatch = false; _batchProxy = obj.ice_batchOneway(); } if (_batchProxy != null) { obj = _batchProxy; } if (current.facet.Length != 0) { obj = obj.ice_facet(current.facet); } if (_batchProxy != null) { byte[] outEncaps; obj.ice_invoke(current.operation, current.mode, inEncaps, out outEncaps, current.ctx); return(Task.FromResult(new Ice.Object_Ice_invokeResult(true, new byte[0]))); } else { return(obj.ice_oneway().ice_invokeAsync(current.operation, current.mode, inEncaps, current.ctx)); } } else { if (current.facet.Length != 0) { obj = obj.ice_facet(current.facet); } return(obj.ice_invokeAsync(current.operation, current.mode, inEncaps, current.ctx)); } }