300 lines
9.8 KiB
C
300 lines
9.8 KiB
C
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/*
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Adept MobileRobots Robotics Interface for Applications (ARIA)
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Copyright (C) 2004, 2005 ActivMedia Robotics LLC
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Copyright (C) 2006, 2007, 2008, 2009, 2010 MobileRobots Inc.
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Copyright (C) 2011, 2012, 2013 Adept Technology
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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If you wish to redistribute ARIA under different terms, contact
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Adept MobileRobots for information about a commercial version of ARIA at
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robots@mobilerobots.com or
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Adept MobileRobots, 10 Columbia Drive, Amherst, NH 03031; +1-603-881-7960
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*/
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#ifndef ARP2ARM_H
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#define ARP2ARM_H
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#include "ArRobot.h"
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#include "ariaTypedefs.h"
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#include "ArSerialConnection.h"
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#include "ariaOSDef.h"
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// P2 Arm classes: ArP2Arm for control and ArP2ArmJoints for P2 Arm joint data
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/// P2 Arm joint info
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class P2ArmJoint
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{
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public:
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AREXPORT P2ArmJoint();
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AREXPORT virtual ~P2ArmJoint();
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ArTypes::UByte myPos;
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ArTypes::UByte myVel;
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ArTypes::UByte myHome;
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ArTypes::UByte myMin;
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ArTypes::UByte myCenter;
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ArTypes::UByte myMax;
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ArTypes::UByte myTicksPer90;
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};
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/**
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ArP2Arm is the interface to the AROS/P2OS-based Pioneer 2 Arm servers,
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by means of which the robot microcontroller firmware can control the
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original 5-DOF Pioneer 2 Arm manipulator.
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The P2 Arm is attached to the robot's microcontroller via an auxiliary
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serial port.
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To use ArmP2, you must first set up an ArRobot and have it connect
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with the robot. The ArRobot needs to be run so that it reads and writes
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packets to and from server. The easiest way is ArRobot::runAsync()
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which runs the ArRobot in its own thread.
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Then call ArP2Arm::setRobot() with ArRobot, and finally initialized
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with ArmP2::init(). Once initialized, use the various ArP2Arm
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methods to power the P2 Arm servos, move joints, and so on.
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For simple examples on how to use ArP2Arm, look in the Aria/examples
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directory for P2ArmSimple.cpp and P2ArmJoydrive.cpp.
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For additional information about the original 5-DOF Pioneer 2 Arm,
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see the robot operations manual and the arm manual, available at
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<a href="http://robots.mobilerobots.com">http://robots.mobilerobots.com</a>.
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@ingroup DeviceClasses
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@ingroup OptionalClasses
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**/
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/// Arm Control class
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class ArP2Arm
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{
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public:
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/// General error conditions possible from most of the arm related functions
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typedef enum {
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SUCCESS, ///< Succeded
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ALREADY_INITED, ///< The class is already initialized
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NOT_INITED, ///< The class is not initialized
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ROBOT_NOT_SETUP, ///< The ArRobot class is not setup properly
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NO_ARM_FOUND, ///< The arm can not be found
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COMM_FAILED, ///< Communications has failed
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COULD_NOT_OPEN_PORT, ///< Could not open the communications port
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COULD_NOT_SET_UP_PORT, ///< Could not setup the communications port
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ALREADY_CONNECTED, ///< Already connected to the arm
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NOT_CONNECTED, ///< Not connected with the arm, connect first
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INVALID_JOINT, ///< Invalid joint specified
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INVALID_POSITION ///< Invalid position specified
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} State;
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/// Type of arm packet identifiers. Used in ArP2Arm::setPacketCB().
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typedef enum {
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StatusPacket, ///< The status packet type
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InfoPacket ///< The info packet type
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} PacketType;
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/// Type of status packets to request for. Used in ArP2Arm::requestStatus()
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typedef enum
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{
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StatusOff=0, ///< Stop sending status packets
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StatusSingle=1, ///< Send a single status packets
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StatusContinuous=2 ///< Send continous packets. Once every 100ms.
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} StatusType;
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/// Bit for joint 1 in arm status byte
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AREXPORT static const int ArmJoint1;
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/// Bit for joint 2 in arm status byte
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AREXPORT static const int ArmJoint2;
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/// Bit for joint 3 in arm status byte
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AREXPORT static const int ArmJoint3;
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/// Bit for joint 4 in arm status byte
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AREXPORT static const int ArmJoint4;
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/// Bit for joint 5 in arm status byte
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AREXPORT static const int ArmJoint5;
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/// Bit for joint 6 in arm status byte
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AREXPORT static const int ArmJoint6;
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/// Bit for arm good state in arm status byte
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AREXPORT static const int ArmGood;
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/// Bit for arm initialized in arm status byte
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AREXPORT static const int ArmInited;
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/// Bit for arm powered on in arm status byte
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AREXPORT static const int ArmPower;
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/// Bit for arm homing in arm status byte
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AREXPORT static const int ArmHoming;
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/// Number of joints that the arm has
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AREXPORT static int NumJoints;
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/// Constructor
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AREXPORT ArP2Arm();
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/// Destructor
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AREXPORT virtual ~ArP2Arm();
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/// Set the robot to use to talk to the arm
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AREXPORT void setRobot(ArRobot *robot) {myRobot=robot;}
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/// Init the arm class
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AREXPORT virtual State init();
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/// Uninit the arm class
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AREXPORT virtual State uninit();
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/// Power on the arm
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AREXPORT virtual State powerOn(bool doWait=true);
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/// Power off the arm
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AREXPORT virtual State powerOff();
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/// Request the arm info packet
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AREXPORT virtual State requestInfo();
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/// Request the arm status packet
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AREXPORT virtual State requestStatus(StatusType status);
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/// Request arm initialization
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AREXPORT virtual State requestInit();
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/// Check to see if the arm is still connected
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AREXPORT virtual State checkArm(bool waitForResponse=true);
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/// Home the arm
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AREXPORT virtual State home(int joint=-1);
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/// Home the arm and power if off
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AREXPORT virtual State park();
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/// Move a joint to a position in degrees
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AREXPORT virtual State moveTo(int joint, float pos, unsigned char vel=0);
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/// Move a joint to a position in low level arm controller ticks
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AREXPORT virtual State moveToTicks(int joint, unsigned char pos);
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/// Move a joint step degrees
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AREXPORT virtual State moveStep(int joint, float pos, unsigned char vel=0);
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/// Move a joint step ticks
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AREXPORT virtual State moveStepTicks(int joint, signed char pos);
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/// Set the joint to move at the given velocity
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AREXPORT virtual State moveVel(int joint, int vel);
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/// Stop the arm
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AREXPORT virtual State stop();
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/// Set the auto park timer value
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AREXPORT virtual State setAutoParkTimer(int waitSecs);
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/// Set the gripper park timer value
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AREXPORT virtual State setGripperParkTimer(int waitSecs);
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/// Set the arm stopped callback
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AREXPORT virtual void setStoppedCB(ArFunctor *func) {myStoppedCB=func;}
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/// set the arm packet callback
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AREXPORT virtual void setPacketCB(ArFunctor1<PacketType> *func)
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{myPacketCB=func;}
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/// Get the arm version
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AREXPORT virtual std::string getArmVersion() {return(myVersion);}
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/// Get the joints position in degrees
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AREXPORT virtual float getJointPos(int joint);
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/// Get the joints position in ticks
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AREXPORT virtual unsigned char getJointPosTicks(int joint);
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/// Check to see if the arm is moving
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AREXPORT virtual bool getMoving(int joint=-1);
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/// Check to see if the arm is powered
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AREXPORT virtual bool isPowered();
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/// Check to see if the arm is communicating
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AREXPORT virtual bool isGood();
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/// Get the two byts of status info from P2OS
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AREXPORT virtual int getStatus() {return(myStatus);}
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/// Get when the last arm status packet came in
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AREXPORT virtual ArTime getLastStatusTime() {return(myLastStatusTime);}
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/// Get the robot that the arm is on
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AREXPORT virtual ArRobot * getRobot() {return(myRobot);}
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/// Get the joints data structure
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AREXPORT virtual P2ArmJoint * getJoint(int joint);
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/// Converts degrees to low level arm controller ticks
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AREXPORT virtual bool convertDegToTicks(int joint, float pos,
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unsigned char *ticks);
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/// Converts low level arm controller ticks to degrees
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AREXPORT virtual bool convertTicksToDeg(int joint, unsigned char pos,
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float *degrees);
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protected:
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// AROS/P2OS parameters
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static const unsigned int ARMpac;
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static const unsigned int ARMINFOpac;
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static const unsigned char ComArmInfo;
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static const unsigned char ComArmStats;
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static const unsigned char ComArmInit;
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static const unsigned char ComArmCheckArm;
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static const unsigned char ComArmPower;
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static const unsigned char ComArmHome;
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static const unsigned char ComArmPark;
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static const unsigned char ComArmPos;
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static const unsigned char ComArmSpeed;
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static const unsigned char ComArmStop;
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static const unsigned char ComArmAutoPark;
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static const unsigned char ComArmGripperPark;
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bool comArmInfo();
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bool comArmStats(StatusType stats=StatusSingle);
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bool comArmInit();
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bool comArmCheckArm();
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bool comArmPower(bool on);
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bool comArmHome(unsigned char joint=0xff);
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bool comArmPark();
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bool comArmPos(unsigned char joint, unsigned char pos);
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bool comArmSpeed(unsigned char joint, unsigned char speed);
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bool comArmStop(unsigned char joint=0xff);
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bool comArmAutoPark(int waitSecs);
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bool comArmGripperPark(int waitSecs);
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bool armPacketHandler(ArRobotPacket *packet);
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bool myInited;
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ArRobot *myRobot;
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// ArmP2Model myModel;
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ArTime myLastStatusTime;
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ArTime myLastInfoTime;
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std::string myVersion;
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StatusType myStatusRequest;
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ArTypes::UByte2 myLastStatus;
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ArTypes::UByte2 myStatus;
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ArSerialConnection myCon;
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ArRetFunctorC<State, ArP2Arm> myAriaUninitCB;
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ArRetFunctor1C<bool, ArP2Arm, ArRobotPacket*> myArmPacketHandler;
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ArFunctor1<PacketType> *myPacketCB;
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ArFunctor *myStoppedCB;
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// We have 6 joints. Including the gripper. It's here so that we can
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// store its position even though its not really a joint.
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P2ArmJoint myJoints[6];
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};
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#endif // _ARP2ARM_H
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