www.gusucode.com > ros 工具箱 matlab源码程序 > ros/+robotics/+ros/+msggen/+underwater_sensor_msgs/Pressure.m
classdef Pressure < robotics.ros.Message
%Pressure MATLAB implementation of underwater_sensor_msgs/Pressure
% This class was automatically generated by
% robotics.ros.msg.internal.gen.MessageClassGenerator.
% Copyright 2014-2016 The MathWorks, Inc.
%#ok<*INUSD>
properties (Constant)
MessageType = 'underwater_sensor_msgs/Pressure' % The ROS message type
end
properties (Constant, Hidden)
MD5Checksum = 'cc86d3e590cd90e822f975defafdf965' % The MD5 Checksum of the message definition
end
properties (Access = protected)
JavaMessage % The Java message object
end
properties (Constant, Access = protected)
StdMsgsHeaderClass = robotics.ros.msg.internal.MessageFactory.getClassForType('std_msgs/Header') % Dispatch to MATLAB class for message type std_msgs/Header
end
properties (Dependent)
Header
Pressure_
end
properties (Access = protected)
Cache = struct('Header', []) % The cache for fast data access
end
properties (Constant, Hidden)
PropertyList = {'Header', 'Pressure_'} % List of non-constant message properties
ROSPropertyList = {'header', 'pressure'} % List of non-constant ROS message properties
end
methods
function obj = Pressure(msg)
%Pressure Construct the message object Pressure
import com.mathworks.toolbox.robotics.ros.message.MessageInfo;
% Support default constructor
if nargin == 0
obj.JavaMessage = obj.createNewJavaMessage;
return;
end
% Construct appropriate empty array
if isempty(msg)
obj = obj.empty(0,1);
return;
end
% Make scalar construction fast
if isscalar(msg)
% Check for correct input class
if ~MessageInfo.compareTypes(msg(1), obj.MessageType)
error(message('robotics:ros:message:NoTypeMatch', obj.MessageType, ...
char(MessageInfo.getType(msg(1))) ));
end
obj.JavaMessage = msg(1);
return;
end
% Check that this is a vector of scalar messages. Since this
% is an object array, use arrayfun to verify.
if ~all(arrayfun(@isscalar, msg))
error(message('robotics:ros:message:MessageArraySizeError'));
end
% Check that all messages in the array have the correct type
if ~all(arrayfun(@(x) MessageInfo.compareTypes(x, obj.MessageType), msg))
error(message('robotics:ros:message:NoTypeMatchArray', obj.MessageType));
end
% Construct array of objects if necessary
objType = class(obj);
for i = 1:length(msg)
obj(i,1) = feval(objType, msg(i)); %#ok<AGROW>
end
end
function header = get.Header(obj)
%get.Header Get the value for property Header
if isempty(obj.Cache.Header)
obj.Cache.Header = feval(obj.StdMsgsHeaderClass, obj.JavaMessage.getHeader);
end
header = obj.Cache.Header;
end
function set.Header(obj, header)
%set.Header Set the value for property Header
validateattributes(header, {obj.StdMsgsHeaderClass}, {'nonempty', 'scalar'}, 'Pressure', 'Header');
obj.JavaMessage.setHeader(header.getJavaObject);
% Update cache if necessary
if ~isempty(obj.Cache.Header)
obj.Cache.Header.setJavaObject(header.getJavaObject);
end
end
function pressure_ = get.Pressure_(obj)
%get.Pressure_ Get the value for property Pressure_
pressure_ = single(obj.JavaMessage.getPressure);
end
function set.Pressure_(obj, pressure_)
%set.Pressure_ Set the value for property Pressure_
validateattributes(pressure_, {'numeric'}, {'nonempty', 'scalar'}, 'Pressure', 'Pressure_');
obj.JavaMessage.setPressure(pressure_);
end
end
methods (Access = protected)
function resetCache(obj)
%resetCache Resets any cached properties
obj.Cache.Header = [];
end
function cpObj = copyElement(obj)
%copyElement Implements deep copy behavior for message
% Call default copy method for shallow copy
cpObj = copyElement@robotics.ros.Message(obj);
% Clear any existing cached properties
cpObj.resetCache;
% Create a new Java message object
cpObj.JavaMessage = obj.createNewJavaMessage;
% Iterate over all primitive properties
cpObj.Pressure_ = obj.Pressure_;
% Recursively copy compound properties
cpObj.Header = copy(obj.Header);
end
function reload(obj, strObj)
%reload Called by loadobj to assign properties
obj.Pressure_ = strObj.Pressure_;
obj.Header = feval([obj.StdMsgsHeaderClass '.loadobj'], strObj.Header);
end
end
methods (Access = ?robotics.ros.Message)
function strObj = saveobj(obj)
%saveobj Implements saving of message to MAT file
% Return an empty element if object array is empty
if isempty(obj)
strObj = struct.empty;
return
end
strObj.Pressure_ = obj.Pressure_;
strObj.Header = saveobj(obj.Header);
end
end
methods (Static, Access = {?matlab.unittest.TestCase, ?robotics.ros.Message})
function obj = loadobj(strObj)
%loadobj Implements loading of message from MAT file
% Return an empty object array if the structure element is not defined
if isempty(strObj)
obj = robotics.ros.msggen.underwater_sensor_msgs.Pressure.empty(0,1);
return
end
% Create an empty message object
obj = robotics.ros.msggen.underwater_sensor_msgs.Pressure;
obj.reload(strObj);
end
end
end