kinetic操作系统探索总结键盘控制
Posted ynxf
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如果尝试过前面的例子,有没有感觉每次让机器人移动还要在终端里输入指令,这也太麻烦了,有没有办法通过键盘来控制机器人的移动呢?答案室当然的了。我研究了其他几个机器人键盘控制的代码,还是有所收获的,最后移植到了smartcar上,实验成功。
一、创建控制包
首先,我们为键盘控制单独建立一个包:
01.catkin_create_pkg smartcar_teleop rospy geometry_msgs std_msgs roscpp
02.catkin_make
二、简单的消息发布
在机器人仿真中,主要控制机器人移动的就是 在机器人仿真中,主要控制机器人移动的就是Twist()结构,如果我们编程将这个结构通过程序发布成topic,自然就可以控制机器 人了。我们先用简单的python来尝试一下。
之前的模拟中,我们使用的都是在命令行下进行的消息发布,现在我们需要把这些命令转换成python代码,封装到一个单独的节点中去。针对之前的命令行,我们可以很简单的 在smartcar_teleop/scripts文件夹下编写如下的控制代码:
#!/usr/bin/env python
import roslib; roslib.load_manifest(‘smartcar_teleop‘)
import rospy
from geometry_msgs.msg import Twist
from std_msgs.msg import String
class Teleop:
def __init__(self):
pub = rospy.Publisher(‘cmd_vel‘, Twist)
rospy.init_node(‘smartcar_teleop‘)
rate = rospy.Rate(rospy.get_param(‘~hz‘, 1))
self.cmd = None
cmd = Twist()
cmd.linear.x = 0.2
cmd.linear.y = 0
cmd.linear.z = 0
cmd.angular.z = 0
cmd.angular.z = 0
cmd.angular.z = 0.5
self.cmd = cmd
while not rospy.is_shutdown():
str = "hello world %s" % rospy.get_time()
rospy.loginfo(str)
pub.publish(self.cmd)
rate.sleep()
if __name__ == ‘__main__‘:Teleop()
python代码在ROS重视不需要编译的。(python代码不需要编译,运行方式是 rosrun package python.py。C++代码需要catkin_make后rosrun package codes。catkin_make前需要修改CMakeList.txt)
先运行之前教程中用到的smartcar机器人,在rviz中进行显示,然后新建终端,输入如下命令:
rosrun smartcar_teleop teleop.py
也可以建立一个launch文件运行:
<launch> <arg name="cmd_topic" default="cmd_vel" /> <node pkg="smartcar_teleop" type="teleop.py" name="smartcar_teleop"> <remap from="cmd_vel" to="$(arg cmd_topic)" /> </node> </launch>
使用 roslaunch运行
在rviz中看一下机器人是不是动起来了!
三、加入键盘控制
当然前边的程序不是我们要的,我们需要的键盘控制。
1、移植
因为ROS的代码具有很强的可移植性,所以用键盘控制的代码其实可以直接从其他机器人包中移植过来,在这里我主要参考的是erratic_robot,在这个机器人的代码中有一个erratic_teleop包,可以直接移植过来使用。
首先,我们将其中src文件夹下的keyboard.cpp代码文件直接拷贝到我们smartcar_teleop包的src文件夹下,然后修改CMakeLists.txt文件,将下列代码加入文件底部:
include_directories(include ${catkin_INCLUDE_DIRS})
add_executable(smartcar_teleop src/keyboard.cpp)
target_link_libraries(smartcar_teleop ${catkin_LIBRARIES})
(注意:不能直接添加在文件底部,可以搜索相似的添加方式,添加在CMakeList.txt的合适位置)
在src文件夹下新建 keyboard.cpp文件。
#include <termios.h> #include <signal.h> #include <math.h> #include <stdio.h> #include <stdlib.h> #include <sys/poll.h> #include <boost/thread/thread.hpp> #include <ros/ros.h> #include <geometry_msgs/Twist.h> #define KEYCODE_W 0x77 #define KEYCODE_A 0x61 #define KEYCODE_S 0x73 #define KEYCODE_D 0x64 #define KEYCODE_A_CAP 0x41 #define KEYCODE_D_CAP 0x44 #define KEYCODE_S_CAP 0x53 #define KEYCODE_W_CAP 0x57 class SmartCarKeyboardTeleopNode { private: double walk_vel_; double run_vel_; double yaw_rate_; double yaw_rate_run_; geometry_msgs::Twist cmdvel_; ros::NodeHandle n_; ros::Publisher pub_; public: SmartCarKeyboardTeleopNode() { pub_ = n_.advertise<geometry_msgs::Twist>("cmd_vel", 1); ros::NodeHandle n_private("~"); n_private.param("walk_vel", walk_vel_, 0.5); n_private.param("run_vel", run_vel_, 1.0); n_private.param("yaw_rate", yaw_rate_, 1.0); n_private.param("yaw_rate_run", yaw_rate_run_, 1.5); } ~SmartCarKeyboardTeleopNode() { } void keyboardLoop(); void stopRobot() { cmdvel_.linear.x = 0.0; cmdvel_.angular.z = 0.0; pub_.publish(cmdvel_); } }; SmartCarKeyboardTeleopNode* tbk; int kfd = 0; struct termios cooked, raw; bool done; int main(int argc, char** argv) { ros::init(argc,argv,"tbk", ros::init_options::AnonymousName | ros::init_options::NoSigintHandler); SmartCarKeyboardTeleopNode tbk; boost::thread t = boost::thread(boost::bind(&SmartCarKeyboardTeleopNode::keyboardLoop, &tbk)); ros::spin(); t.interrupt(); t.join(); tbk.stopRobot(); tcsetattr(kfd, TCSANOW, &cooked); return(0); } void SmartCarKeyboardTeleopNode::keyboardLoop() { char c; double max_tv = walk_vel_; double max_rv = yaw_rate_; bool dirty = false; int speed = 0; int turn = 0; // get the console in raw mode tcgetattr(kfd, &cooked); memcpy(&raw, &cooked, sizeof(struct termios)); raw.c_lflag &=~ (ICANON | ECHO); raw.c_cc[VEOL] = 1; raw.c_cc[VEOF] = 2; tcsetattr(kfd, TCSANOW, &raw); puts("Reading from keyboard"); puts("Use WASD keys to control the robot"); puts("Press Shift to move faster"); struct pollfd ufd; ufd.fd = kfd; ufd.events = POLLIN; for(;;) { boost::this_thread::interruption_point(); // get the next event from the keyboard int num; if ((num = poll(&ufd, 1, 250)) < 0) { perror("poll():"); return; } else if(num > 0) { if(read(kfd, &c, 1) < 0) { perror("read():"); return; } } else { if (dirty == true) { stopRobot(); dirty = false; } continue; } switch(c) { case KEYCODE_W: max_tv = walk_vel_; speed = 1; turn = 0; dirty = true; break; case KEYCODE_S: max_tv = walk_vel_; speed = -1; turn = 0; dirty = true; break; case KEYCODE_A: max_rv = yaw_rate_; speed = 0; turn = 1; dirty = true; break; case KEYCODE_D: max_rv = yaw_rate_; speed = 0; turn = -1; dirty = true; break; case KEYCODE_W_CAP: max_tv = run_vel_; speed = 1; turn = 0; dirty = true; break; case KEYCODE_S_CAP: max_tv = run_vel_; speed = -1; turn = 0; dirty = true; break; case KEYCODE_A_CAP: max_rv = yaw_rate_run_; speed = 0; turn = 1; dirty = true; break; case KEYCODE_D_CAP: max_rv = yaw_rate_run_; speed = 0; turn = -1; dirty = true; break; default: max_tv = walk_vel_; max_rv = yaw_rate_; speed = 0; turn = 0; dirty = false; } cmdvel_.linear.x = speed * max_tv; cmdvel_.angular.z = turn * max_rv; pub_.publish(cmdvel_); } }
CMakeList.txt文件
cmake_minimum_required(VERSION 2.8.3) project(smartcar_teleop) ## Compile as C++11, supported in ROS Kinetic and newer # add_compile_options(-std=c++11) ## Find catkin macros and libraries ## if COMPONENTS list like find_package(catkin REQUIRED COMPONENTS xyz) ## is used, also find other catkin packages find_package(catkin REQUIRED COMPONENTS geometry_msgs roscpp rospy std_msgs urdf ) ## System dependencies are found with CMake‘s conventions # find_package(Boost REQUIRED COMPONENTS system) ## Uncomment this if the package has a setup.py. This macro ensures ## modules and global scripts declared therein get installed ## See http://ros.org/doc/api/catkin/html/user_guide/setup_dot_py.html # catkin_python_setup() ################################################ ## Declare ROS messages, services and actions ## ################################################ ## To declare and build messages, services or actions from within this ## package, follow these steps: ## * Let MSG_DEP_SET be the set of packages whose message types you use in ## your messages/services/actions (e.g. std_msgs, actionlib_msgs, ...). ## * In the file package.xml: ## * add a build_depend tag for "message_generation" ## * add a build_depend and a exec_depend tag for each package in MSG_DEP_SET ## * If MSG_DEP_SET isn‘t empty the following dependency has been pulled in ## but can be declared for certainty nonetheless: ## * add a exec_depend tag for "message_runtime" ## * In this file (CMakeLists.txt): ## * add "message_generation" and every package in MSG_DEP_SET to ## find_package(catkin REQUIRED COMPONENTS ...) ## * add "message_runtime" and every package in MSG_DEP_SET to ## catkin_package(CATKIN_DEPENDS ...) ## * uncomment the add_*_files sections below as needed ## and list every .msg/.srv/.action file to be processed ## * uncomment the generate_messages entry below ## * add every package in MSG_DEP_SET to generate_messages(DEPENDENCIES ...) ## Generate messages in the ‘msg‘ folder # add_message_files( # FILES # Message1.msg # Message2.msg # ) ## Generate services in the ‘srv‘ folder # add_service_files( # FILES # Service1.srv # Service2.srv # ) ## Generate actions in the ‘action‘ folder # add_action_files( # FILES # Action1.action # Action2.action # ) ## Generate added messages and services with any dependencies listed here # generate_messages( # DEPENDENCIES # geometry_msgs# std_msgs # ) ################################################ ## Declare ROS dynamic reconfigure parameters ## ################################################ ## To declare and build dynamic reconfigure parameters within this ## package, follow these steps: ## * In the file package.xml: ## * add a build_depend and a exec_depend tag for "dynamic_reconfigure" ## * In this file (CMakeLists.txt): ## * add "dynamic_reconfigure" to ## find_package(catkin REQUIRED COMPONENTS ...) ## * uncomment the "generate_dynamic_reconfigure_options" section below ## and list every .cfg file to be processed ## Generate dynamic reconfigure parameters in the ‘cfg‘ folder # generate_dynamic_reconfigure_options( # cfg/DynReconf1.cfg # cfg/DynReconf2.cfg # ) ################################### ## catkin specific configuration ## ################################### ## The catkin_package macro generates cmake config files for your package ## Declare things to be passed to dependent projects ## INCLUDE_DIRS: uncomment this if your package contains header files ## LIBRARIES: libraries you create in this project that dependent projects also need ## CATKIN_DEPENDS: catkin_packages dependent projects also need ## DEPENDS: system dependencies of this project that dependent projects also need catkin_package( # INCLUDE_DIRS include # LIBRARIES smartcar_teleop # CATKIN_DEPENDS geometry_msgs roscpp rospy std_msgs urdf # DEPENDS system_lib ) ########### ## Build ## ########### ## Specify additional locations of header files ## Your package locations should be listed before other locations include_directories( include ${catkin_INCLUDE_DIRS} ) ## Declare a C++ library # add_library(${PROJECT_NAME} # src/${PROJECT_NAME}/smartcar_teleop.cpp # ) ## Add cmake target dependencies of the library ## as an example, code may need to be generated before libraries ## either from message generation or dynamic reconfigure # add_dependencies(${PROJECT_NAME} ${${PROJECT_NAME}_EXPORTED_TARGETS} ${catkin_EXPORTED_TARGETS}) ## Declare a C++ executable ## With catkin_make all packages are built within a single CMake context ## The recommended prefix ensures that target names across packages don‘t collide # add_executable(${PROJECT_NAME}_node src/smartcar_teleop_node.cpp) add_executable(smartcar_teleop src/keyboard.cpp) ## Rename C++ executable without prefix ## The above recommended prefix causes long target names, the following renames the ## target back to the shorter version for ease of user use ## e.g. "rosrun someones_pkg node" instead of "rosrun someones_pkg someones_pkg_node" # set_target_properties(${PROJECT_NAME}_node PROPERTIES OUTPUT_NAME node PREFIX "") ## Add cmake target dependencies of the executable ## same as for the library above # add_dependencies(${PROJECT_NAME}_node ${${PROJECT_NAME}_EXPORTED_TARGETS} ${catkin_EXPORTED_TARGETS}) ## Specify libraries to link a library or executable target against # target_link_libraries(${PROJECT_NAME}_node # ${catkin_LIBRARIES} # ) target_link_libraries(smartcar_teleop ${catkin_LIBRARIES}) ############# ## Install ## ############# # all install targets should use catkin DESTINATION variables # See http://ros.org/doc/api/catkin/html/adv_user_guide/variables.html ## Mark executable scripts (Python etc.) for installation ## in contrast to setup.py, you can choose the destination # install(PROGRAMS # scripts/my_python_script # DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION} # ) ## Mark executables and/or libraries for installation # install(TARGETS ${PROJECT_NAME} ${PROJECT_NAME}_node # ARCHIVE DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION} # LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION} # RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION} # ) ## Mark cpp header files for installation # install(DIRECTORY include/${PROJECT_NAME}/ # DESTINATION ${CATKIN_PACKAGE_INCLUDE_DESTINATION} # FILES_MATCHING PATTERN "*.h" # PATTERN ".svn" EXCLUDE # ) ## Mark other files for installation (e.g. launch and bag files, etc.) # install(FILES # # myfile1 # # myfile2 # DESTINATION ${CATKIN_PACKAGE_SHARE_DESTINATION} # ) ############# ## Testing ## ############# ## Add gtest based cpp test target and link libraries # catkin_add_gtest(${PROJECT_NAME}-test test/test_smartcar_teleop.cpp) # if(TARGET ${PROJECT_NAME}-test) # target_link_libraries(${PROJECT_NAME}-test ${PROJECT_NAME}) # endif() ## Add folders to be run by python nosetests # catkin_add_nosetests(test)
catkin_make 之后我们执行程序
rosrun smartcar_teleop smartcar_teleop
这样我们就可以用WSAD来控制rviz中的机器人了。
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