00001 /*!@file AppDevices/test-JoyStick.C test Linux JoyStick interfacing */ 00002 00003 // //////////////////////////////////////////////////////////////////// // 00004 // The iLab Neuromorphic Vision C++ Toolkit - Copyright (C) 2000-2002 // 00005 // by the University of Southern California (USC) and the iLab at USC. // 00006 // See http://iLab.usc.edu for information about this project. // 00007 // //////////////////////////////////////////////////////////////////// // 00008 // Major portions of the iLab Neuromorphic Vision Toolkit are protected // 00009 // under the U.S. patent ``Computation of Intrinsic Perceptual Saliency // 00010 // in Visual Environments, and Applications'' by Christof Koch and // 00011 // Laurent Itti, California Institute of Technology, 2001 (patent // 00012 // pending; application number 09/912,225 filed July 23, 2001; see // 00013 // http://pair.uspto.gov/cgi-bin/final/home.pl for current status). // 00014 // //////////////////////////////////////////////////////////////////// // 00015 // This file is part of the iLab Neuromorphic Vision C++ Toolkit. // 00016 // // 00017 // The iLab Neuromorphic Vision C++ Toolkit is free software; you can // 00018 // redistribute it and/or modify it under the terms of the GNU General // 00019 // Public License as published by the Free Software Foundation; either // 00020 // version 2 of the License, or (at your option) any later version. // 00021 // // 00022 // The iLab Neuromorphic Vision C++ Toolkit is distributed in the hope // 00023 // that it will be useful, but WITHOUT ANY WARRANTY; without even the // 00024 // implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR // 00025 // PURPOSE. See the GNU General Public License for more details. // 00026 // // 00027 // You should have received a copy of the GNU General Public License // 00028 // along with the iLab Neuromorphic Vision C++ Toolkit; if not, write // 00029 // to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, // 00030 // Boston, MA 02111-1307 USA. // 00031 // //////////////////////////////////////////////////////////////////// // 00032 // 00033 // Primary maintainer for this file: Laurent Itti <itti@usc.edu> 00034 // $HeadURL: svn://isvn.usc.edu/software/invt/trunk/saliency/src/AppDevices/test-JoyStick.C $ 00035 // $Id: test-JoyStick.C 7880 2007-02-09 02:34:07Z itti $ 00036 // 00037 00038 #include "Component/ModelManager.H" 00039 #include "Devices/JoyStick.H" 00040 #include "Util/Types.H" 00041 #include "Util/log.H" 00042 #include <unistd.h> 00043 00044 #ifdef HAVE_LINUX_JOYSTICK_H 00045 00046 //! A simple joystick listener 00047 class TestJoyStickListener : public JoyStickListener 00048 { 00049 public: 00050 virtual ~TestJoyStickListener() { } 00051 00052 virtual void axis(const uint num, const int16 val) 00053 { LINFO("Axis[%d] = %d", num, val); } 00054 00055 virtual void button(const uint num, const bool state) 00056 { LINFO("Button[%d] = %s", num, state?"true":"false"); } 00057 }; 00058 00059 #endif 00060 00061 //! Test JoyStick code 00062 /*! Test Joystick code. */ 00063 int main(const int argc, const char **argv) 00064 { 00065 #ifndef HAVE_LINUX_JOYSTICK_H 00066 00067 LFATAL("<linux/joystick.h> must be installed to use this program"); 00068 00069 #else 00070 00071 // get a manager going: 00072 ModelManager manager("JoyStick Manager"); 00073 00074 // instantiate our model components: 00075 nub::soft_ref<JoyStick> js(new JoyStick(manager) ); 00076 manager.addSubComponent(js); 00077 00078 // Parse command-line: 00079 if (manager.parseCommandLine(argc, argv, "[device]", 0, 1) == false) 00080 return(1); 00081 00082 // let's configure our device: 00083 if (manager.numExtraArgs() > 0) 00084 js->setModelParamVal("JoyStickDevName", 00085 manager.getExtraArg(0), MC_RECURSE); 00086 00087 // register a listener: 00088 rutz::shared_ptr<TestJoyStickListener> lis(new TestJoyStickListener); 00089 rutz::shared_ptr<JoyStickListener> lis2; lis2.dynCastFrom(lis); // cast down 00090 js->setListener(lis2); 00091 00092 // get started: 00093 manager.start(); 00094 00095 // Everything is event-driven so in our main loop here we just sleep: 00096 while(1) sleep(100); 00097 00098 /* 00099 // Alternatively to the event-driven approach used above where a 00100 // JoyStickListener is activated each time an event is received from 00101 // the joystick, below is an example of how you would do a polling 00102 // driver. It is not recommended as you may miss some events if you 00103 // don't poll fast enough: 00104 00105 // get our joystick's vitals: 00106 uint nax = js->getNumAxes(); 00107 uint nbu = js->getNumButtons(); 00108 00109 char msg[2000], tmp[20]; 00110 00111 // main loop: display the values at regular time intervals 00112 for(;;) 00113 { 00114 // get the axes: 00115 sprintf(msg, "Axes: "); 00116 for (uint i = 0; i < nax; i ++) 00117 { 00118 int16 val = js->getAxisValue(i); 00119 sprintf(tmp, " %-05d", val); strcat(msg, tmp); 00120 } 00121 LINFO(msg); 00122 00123 // get the buttons: 00124 sprintf(msg, "Buttons:"); 00125 for (uint i = 0; i < nbu; i ++) 00126 { 00127 bool val = js->getButtonState(i); 00128 if (val) strcat(msg, " 1"); else strcat(msg, " 0"); 00129 } 00130 LINFO(msg); 00131 00132 // sleep a bit: 00133 usleep(100000); 00134 } 00135 */ 00136 00137 // stop everything and exit: 00138 manager.stop(); 00139 return 0; 00140 00141 #endif // HAVE_LINUX_JOYSTICK_H 00142 00143 } 00144 00145 // ###################################################################### 00146 /* So things look consistent in everyone's emacs... */ 00147 /* Local Variables: */ 00148 /* indent-tabs-mode: nil */ 00149 /* End: */
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