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00001 /* 00002 * Copyright (c) 2008, Willow Garage, Inc. 00003 * All rights reserved. 00004 * 00005 * Redistribution and use in source and binary forms, with or without 00006 * modification, are permitted provided that the following conditions are met: 00007 * 00008 * * Redistributions of source code must retain the above copyright 00009 * notice, this list of conditions and the following disclaimer. 00010 * * Redistributions in binary form must reproduce the above copyright 00011 * notice, this list of conditions and the following disclaimer in the 00012 * documentation and/or other materials provided with the distribution. 00013 * * Neither the name of the <ORGANIZATION> nor the names of its 00014 * contributors may be used to endorse or promote products derived from 00015 * this software without specific prior written permission. 00016 * 00017 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" 00018 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 00019 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 00020 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE 00021 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 00022 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 00023 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 00024 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 00025 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 00026 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 00027 * POSSIBILITY OF SUCH DAMAGE. 00028 */ 00029 00030 00031 #include <ros/ros.h> 00032 00033 #include "diagnostic_msgs/SelfTest.h" 00034 00035 #include "self_test/self_test.h" 00036 00037 #include <stdexcept> 00038 00039 // using namespace std; 00040 00041 class MyNode 00042 { 00043 public: 00044 00045 // self_test::TestRunner is the handles sequencing driver self-tests. 00046 self_test::TestRunner self_test_; 00047 00048 // A value showing statefulness of tests 00049 double some_val; 00050 00051 ros::NodeHandle nh_; 00052 00053 MyNode() : self_test_() 00054 { 00055 // If any setup work needs to be done before running the tests, 00056 // a pretest can be defined. It is just like any other test, but 00057 // doesn't actually do any testing. 00058 self_test_.add("Pretest", this, &MyNode::pretest ); 00059 00060 // Tests added will be run in the order in which they are added. Each 00061 // test has a name that will be automatically be filled in the 00062 // DiagnosticStatus message. 00063 // 00064 // NOTE: self_test::TestRunner inherits its add() methods from 00065 // diagnostic_updater::DiagnosticTaskVector. You will have to refer to 00066 // the diagnostic_updater doxygen documentation to find them: 00067 // http://www.ros.org/doc/api/diagnostic_updater/html/classdiagnostic__updater_1_1DiagnosticTaskVector.html 00068 self_test_.add("ID Lookup", this, &MyNode::test1); 00069 self_test_.add("Exception generating test", this, &MyNode::test2); 00070 self_test_.add("Value generating test", this, &MyNode::test3); 00071 self_test_.add("Value testing test", this, &MyNode::test4); 00072 self_test_.add("Value testing test2", this, &MyNode::test4); 00073 00074 // You can remove a test by using its name (documented in 00075 // diagnostic_updater). 00076 if (!self_test_.removeByName("Value testing test2")) 00077 ROS_ERROR("Value testing test2 was not found when trying to remove it."); 00078 00079 // If any cleanup work needs to be done after running the tests, 00080 // a posttest can be defined. It is just like any other test, but 00081 // doesn't actually do any testing. 00082 self_test_.add("Posttest", this, &MyNode::pretest ); 00083 } 00084 00085 void pretest(diagnostic_updater::DiagnosticStatusWrapper& status) 00086 { 00087 ROS_INFO("Doing preparation stuff before we run our test.\n"); 00088 status.summary(diagnostic_msgs::DiagnosticStatus::OK, "Pretest completed successfully."); 00089 00090 some_val = 1.0; 00091 } 00092 00093 // All tests take a reference to a DiagnosticStatusWrapper message which they should populate 00094 // The default values are status.level = 2 (ERROR), and status.message = "No message was set" 00095 // The status.name is automatically set to the name that was passed to add. 00096 // A DiagnosticStatusWrapper is used instead of a DiagnosticStatus 00097 // because it provides useful convenience methods. 00098 void test1(diagnostic_updater::DiagnosticStatusWrapper& status) 00099 { 00100 // Look up ID here 00101 char ID[] = "12345"; 00102 bool lookup_successful = true; 00103 00104 if (lookup_successful) 00105 { 00106 status.summary(diagnostic_msgs::DiagnosticStatus::OK, "ID Lookup successful"); 00107 00108 // One of the tests should call setID() to fill the hardware 00109 // identifier in the self-test output. In cases that do not involve 00110 // hardware, or for which there is no hardware identifier, an 00111 // identifier of "none" should be used. 00112 // For hardware devices that have a hardware identifier, the setID() 00113 // method should be called 00114 self_test_.setID(ID); 00115 00116 } else { 00117 status.summary(diagnostic_msgs::DiagnosticStatus::ERROR, "ID Lookup failed"); 00118 } 00119 } 00120 00121 // Tests do not necessarily need to catch their exceptions. 00122 void test2(diagnostic_updater::DiagnosticStatusWrapper& status) 00123 { 00124 // Note, we start setting our status to success. Since our 00125 // exception is not caught, however, the SelfTest class will 00126 // change level to ERROR. This wouldn't be common practice And I 00127 // would instead recommend not changing the status to success 00128 // until after the exception might be generated. 00129 00130 status.level = 0; 00131 00132 // Exceptions of time runtime_error will actually propagate messages 00133 throw std::runtime_error("we did something that threw an exception"); 00134 00135 // Here's where we would report success if we'd made it past 00136 status.summary(diagnostic_msgs::DiagnosticStatus::OK, "We made it past the exception throwing statement."); 00137 } 00138 00139 // The state of the node can be changed as the tests are operating 00140 void test3(diagnostic_updater::DiagnosticStatusWrapper& status) 00141 { 00142 // Do something that changes the state of the node 00143 some_val += 41.0; 00144 00145 status.add("some value", some_val); 00146 status.summary(diagnostic_msgs::DiagnosticStatus::OK, "We successfully changed the value."); 00147 } 00148 00149 void test4(diagnostic_updater::DiagnosticStatusWrapper& status) 00150 { 00151 if (some_val == 42.0) 00152 { 00153 status.summary(diagnostic_msgs::DiagnosticStatus::OK, "We observed the change in value"); 00154 } 00155 else 00156 { 00157 status.summaryf(diagnostic_msgs::DiagnosticStatus::ERROR, "We failed to observe the change in value, it is currently %f.", some_val); 00158 } 00159 } 00160 00161 void posttest(diagnostic_updater::DiagnosticStatusWrapper& status) 00162 { 00163 ROS_INFO("Doing cleanup stuff after we run our test.\n"); 00164 status.summary(diagnostic_msgs::DiagnosticStatus::OK, "Posttest completed successfully."); 00165 } 00166 00167 bool spin() 00168 { 00169 while (nh_.ok()) 00170 { 00171 //Do something important... 00172 ros::Duration(1).sleep(); 00173 00174 // Calling checkTest tells the SelfTest class that it's ok 00175 // to actually run the test. This gives you flexibility to 00176 // keep the SelfTest service from necessarily interrupting 00177 // other operations. 00178 self_test_.checkTest(); 00179 } 00180 return true; 00181 } 00182 }; 00183 00184 int 00185 main(int argc, char** argv) 00186 { 00187 ros::init(argc, argv, "my_node"); 00188 00189 MyNode n; 00190 00191 n.spin(); 00192 00193 return(0); 00194 }