% automatically generated by wrap classdef Test < handle properties self = 0 end methods function obj = Test(varargin) if nargin == 2 && isa(varargin{1}, 'uint64') && varargin{1} == uint64(5139824614673773682) obj.self = varargin{2}; geometry_wrapper(obj.self); elseif nargin == 0 obj.self = geometry_wrapper(18); elseif nargin == 2 && isa(varargin{1},'double') && isa(varargin{2},'double') obj.self = geometry_wrapper(19,varargin{1},varargin{2}); else error('Arguments do not match any overload of Test constructor'); end end function delete(obj) geometry_wrapper(20, obj.self); end function display(obj), obj.print(''); end function disp(obj), obj.display; end function varargout = arg_EigenConstRef(self, varargin) if length(varargin) == 1 && isa(varargin{1},'double') geometry_wrapper(21, self, varargin{:}); else error('Arguments do not match any overload of function Test.arg_EigenConstRef'); end end function varargout = create_MixedPtrs(self, varargin) if length(varargin) == 0 [ varargout{1} varargout{2} ] = geometry_wrapper(22, self, varargin{:}); else error('Arguments do not match any overload of function Test.create_MixedPtrs'); end end function varargout = create_ptrs(self, varargin) if length(varargin) == 0 [ varargout{1} varargout{2} ] = geometry_wrapper(23, self, varargin{:}); else error('Arguments do not match any overload of function Test.create_ptrs'); end end function varargout = print(self, varargin) if length(varargin) == 0 geometry_wrapper(24, self, varargin{:}); else error('Arguments do not match any overload of function Test.print'); end end function varargout = return_Point2Ptr(self, varargin) if length(varargin) == 1 && isa(varargin{1},'logical') varargout{1} = geometry_wrapper(25, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_Point2Ptr'); end end function varargout = return_Test(self, varargin) if length(varargin) == 1 && isa(varargin{1},'Test') varargout{1} = geometry_wrapper(26, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_Test'); end end function varargout = return_TestPtr(self, varargin) if length(varargin) == 1 && isa(varargin{1},'Test') varargout{1} = geometry_wrapper(27, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_TestPtr'); end end function varargout = return_bool(self, varargin) if length(varargin) == 1 && isa(varargin{1},'logical') varargout{1} = geometry_wrapper(28, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_bool'); end end function varargout = return_double(self, varargin) if length(varargin) == 1 && isa(varargin{1},'double') varargout{1} = geometry_wrapper(29, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_double'); end end function varargout = return_field(self, varargin) if length(varargin) == 1 && isa(varargin{1},'Test') varargout{1} = geometry_wrapper(30, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_field'); end end function varargout = return_int(self, varargin) if length(varargin) == 1 && isa(varargin{1},'numeric') varargout{1} = geometry_wrapper(31, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_int'); end end function varargout = return_matrix1(self, varargin) if length(varargin) == 1 && isa(varargin{1},'double') varargout{1} = geometry_wrapper(32, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_matrix1'); end end function varargout = return_matrix2(self, varargin) if length(varargin) == 1 && isa(varargin{1},'double') varargout{1} = geometry_wrapper(33, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_matrix2'); end end function varargout = return_pair(self, varargin) if length(varargin) == 2 && isa(varargin{1},'double') && isa(varargin{2},'double') [ varargout{1} varargout{2} ] = geometry_wrapper(34, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_pair'); end end function varargout = return_ptrs(self, varargin) if length(varargin) == 2 && isa(varargin{1},'Test') && isa(varargin{2},'Test') [ varargout{1} varargout{2} ] = geometry_wrapper(35, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_ptrs'); end end function varargout = return_size_t(self, varargin) if length(varargin) == 1 && isa(varargin{1},'numeric') varargout{1} = geometry_wrapper(36, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_size_t'); end end function varargout = return_string(self, varargin) if length(varargin) == 1 && isa(varargin{1},'char') varargout{1} = geometry_wrapper(37, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_string'); end end function varargout = return_vector1(self, varargin) if length(varargin) == 1 && isa(varargin{1},'double') varargout{1} = geometry_wrapper(38, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_vector1'); end end function varargout = return_vector2(self, varargin) if length(varargin) == 1 && isa(varargin{1},'double') varargout{1} = geometry_wrapper(39, self, varargin{:}); else error('Arguments do not match any overload of function Test.return_vector2'); end end end methods(Static = true) end end