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CPP Multi Port Protocol 2.0

Sample code

/*
 * multi_port.cpp
 *
 *  Created on: 2016. 2. 21.
 *      Author: leon
 */

//
// *********     multi_port Example      *********
//
//
// Available Dynamixel model on this example : All models using Protocol 2.0
// This example is designed for using two Dynamixel PRO 54-200, and two USB2DYNAMIXELs.
// To use another Dynamixel model, such as X series, see their details in E-Manual(support.robotis.com) and edit below "#define"d variables yourself.
// Be sure that Dynamixel PRO properties are already set as %% ID : 1 / Baudnum : 3 (Baudrate : 1000000)
//

#ifdef __linux__
#include <unistd.h>
#include <fcntl.h>
#include <termios.h>
#elif defined(_WIN32) || defined(_WIN64)
#include <conio.h>
#endif

#include <stdlib.h>
#include <stdio.h>

#include "dynamixel_sdk.h"                                  // Uses DYNAMIXEL SDK library

// Control table address
#define ADDR_PRO_TORQUE_ENABLE          562                 // Control table address is different in Dynamixel model
#define ADDR_PRO_GOAL_POSITION          596
#define ADDR_PRO_PRESENT_POSITION       611

// Protocol version
#define PROTOCOL_VERSION                2.0                 // See which protocol version is used in the Dynamixel

// Default setting
#define DXL1_ID                         1                   // Dynamixel#1 ID: 1
#define DXL2_ID                         2                   // Dynamixel#2 ID: 2
#define BAUDRATE                        1000000
#define DEVICENAME1                     "/dev/ttyUSB0"      // Check which port is being used on your controller
#define DEVICENAME2                     "/dev/ttyUSB1"      // ex) Windows: "COM1"   Linux: "/dev/ttyUSB0"

#define TORQUE_ENABLE                   1                   // Value for enabling the torque
#define TORQUE_DISABLE                  0                   // Value for disabling the torque
#define DXL_MINIMUM_POSITION_VALUE      -150000             // Dynamixel will rotate between this value
#define DXL_MAXIMUM_POSITION_VALUE      150000              // and this value (note that the Dynamixel would not move when the position value is out of movable range. Check e-manual about the range of the Dynamixel you use.)
#define DXL_MOVING_STATUS_THRESHOLD     20                  // Dynamixel moving status threshold

#define ESC_ASCII_VALUE                 0x1b

int getch()
{
#ifdef __linux__
  struct termios oldt, newt;
  int ch;
  tcgetattr(STDIN_FILENO, &oldt);
  newt = oldt;
  newt.c_lflag &= ~(ICANON | ECHO);
  tcsetattr(STDIN_FILENO, TCSANOW, &newt);
  ch = getchar();
  tcsetattr(STDIN_FILENO, TCSANOW, &oldt);
  return ch;
#elif defined(_WIN32) || defined(_WIN64)
  return _getch();
#endif
}

int kbhit(void)
{
#ifdef __linux__
  struct termios oldt, newt;
  int ch;
  int oldf;

  tcgetattr(STDIN_FILENO, &oldt);
  newt = oldt;
  newt.c_lflag &= ~(ICANON | ECHO);
  tcsetattr(STDIN_FILENO, TCSANOW, &newt);
  oldf = fcntl(STDIN_FILENO, F_GETFL, 0);
  fcntl(STDIN_FILENO, F_SETFL, oldf | O_NONBLOCK);

  ch = getchar();

  tcsetattr(STDIN_FILENO, TCSANOW, &oldt);
  fcntl(STDIN_FILENO, F_SETFL, oldf);

  if (ch != EOF)
  {
    ungetc(ch, stdin);
    return 1;
  }

  return 0;
#elif defined(_WIN32) || defined(_WIN64)
  return _kbhit();
#endif
}

int main()
{
  // Initialize PortHandler instance
  // Set the port path
  // Get methods and members of PortHandlerLinux or PortHandlerWindows
  dynamixel::PortHandler *portHandler1 = dynamixel::PortHandler::getPortHandler(DEVICENAME1);
  dynamixel::PortHandler *portHandler2 = dynamixel::PortHandler::getPortHandler(DEVICENAME2);


  // Initialize PacketHandler instance
  // Set the protocol version
  // Get methods and members of Protocol1PacketHandler or Protocol2PacketHandler
  dynamixel::PacketHandler *packetHandler = dynamixel::PacketHandler::getPacketHandler(PROTOCOL_VERSION);

  int index = 0;
  int dxl_comm_result = COMM_TX_FAIL;             // Communication result
  int dxl_goal_position[2] = {DXL_MINIMUM_POSITION_VALUE, DXL_MAXIMUM_POSITION_VALUE};         // Goal position

  uint8_t dxl_error = 0;                          // Dynamixel error
  int32_t dxl1_present_position = 0, dxl2_present_position = 0;              // Present position

  // Open port1
  if (portHandler1->openPort())
  {
    printf("Succeeded to open the port!\n");
  }
  else
  {
    printf("Failed to open the port!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Open port2
  if (portHandler2->openPort())
  {
    printf("Succeeded to open the port!\n");
  }
  else
  {
    printf("Failed to open the port!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Set port1 baudrate
  if (portHandler1->setBaudRate(BAUDRATE))
  {
    printf("Succeeded to change the baudrate!\n");
  }
  else
  {
    printf("Failed to change the baudrate!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Set port2 baudrate
  if (portHandler2->setBaudRate(BAUDRATE))
  {
    printf("Succeeded to change the baudrate!\n");
  }
  else
  {
    printf("Failed to change the baudrate!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Enable Dynamixel#1 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }
  else
  {
    printf("Dynamixel#%d has been successfully connected \n", DXL1_ID);
  }

  // Enable Dynamixel#2 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }
  else
  {
    printf("Dynamixel#%d has been successfully connected \n", DXL2_ID);
  }

  while(1)
  {
    printf("Press any key to continue! (or press ESC to quit!)\n");
    if (getch() == ESC_ASCII_VALUE)
      break;

    // Write Dynamixel#1 goal position
    dxl_comm_result = packetHandler->write4ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_GOAL_POSITION, dxl_goal_position[index], &dxl_error);
    if (dxl_comm_result != COMM_SUCCESS)
    {
      packetHandler->printTxRxResult(dxl_comm_result);
    }
    else if (dxl_error != 0)
    {
      packetHandler->printRxPacketError(dxl_error);
    }

    // Write Dynamixel#2 goal position
    dxl_comm_result = packetHandler->write4ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_GOAL_POSITION, dxl_goal_position[index], &dxl_error);
    if (dxl_comm_result != COMM_SUCCESS)
    {
      packetHandler->printTxRxResult(dxl_comm_result);
    }
    else if (dxl_error != 0)
    {
      packetHandler->printRxPacketError(dxl_error);
    }

    do
    {
      // Read Dynamixel#1 present position
      dxl_comm_result = packetHandler->read4ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_PRESENT_POSITION, (uint32_t*)&dxl1_present_position, &dxl_error);
      if (dxl_comm_result != COMM_SUCCESS)
      {
        packetHandler->printTxRxResult(dxl_comm_result);
      }
      else if (dxl_error != 0)
      {
        packetHandler->printRxPacketError(dxl_error);
      }

      // Read Dynamixel#2 present position
      dxl_comm_result = packetHandler->read4ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_PRESENT_POSITION, (uint32_t*)&dxl2_present_position, &dxl_error);
      if (dxl_comm_result != COMM_SUCCESS)
      {
        packetHandler->printTxRxResult(dxl_comm_result);
      }
      else if (dxl_error != 0)
      {
        packetHandler->printRxPacketError(dxl_error);
      }

      printf("[ID:%03d] GoalPos:%03d  PresPos:%03d\t[ID:%03d] GoalPos:%03d  PresPos:%03d\n", DXL1_ID, dxl_goal_position[index], dxl1_present_position, DXL2_ID, dxl_goal_position[index], dxl2_present_position);

    }while((abs(dxl_goal_position[index] - dxl1_present_position) > DXL_MOVING_STATUS_THRESHOLD) || (abs(dxl_goal_position[index] - dxl2_present_position) > DXL_MOVING_STATUS_THRESHOLD));

    // Change goal position
    if (index == 0)
    {
      index = 1;
    }
    else
    {
      index = 0;
    }
  }

  // Disable Dynamixel#1 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }

  // Disable Dynamixel#2 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }

  // Close port1
  portHandler1->closePort();

  // Close port2
  portHandler2->closePort();

  return 0;
}

Details

#ifdef __linux__
#include <unistd.h>
#include <fcntl.h>
#include <termios.h>
#elif defined(_WIN32) || defined(_WIN64)
#include <conio.h>
#endif

This source includes above to get key input interruption while the example is running. Actual functions for getting the input is described in a little below.

#include <stdlib.h>

The function abs() is in the example code, and it needs stdlib.h to be included.

#include <stdio.h>

The example shows Dynamixel status in sequence by the function printf(). So here stdio.h is needed.

#include "dynamixel_sdk.h"                                   // Uses DYNAMIXEL SDK library

All libraries of DYNAMIXEL SDK are linked with the header file dynamixel_sdk.h.

// Control table address
#define ADDR_PRO_TORQUE_ENABLE          562                 // Control table address is different in Dynamixel model
#define ADDR_PRO_GOAL_POSITION          596
#define ADDR_PRO_PRESENT_POSITION       611

Dynamixel series have their own control tables: Addresses and Byte Length in each items. To control one of the items, its address (and length if necessary) is required. Find your requirements in http://emanual.robotis.com/.

// Protocol version
#define PROTOCOL_VERSION                2.0                 // See which protocol version is used in the Dynamixel

Dynamixel uses either or both protocols: Protocol 1.0 and Protocol 2.0. Choose one of the Protocol which is appropriate in the Dynamixel.

// Default setting
#define DXL1_ID                         1                   // Dynamixel#1 ID: 1
#define DXL2_ID                         2                   // Dynamixel#2 ID: 2
#define BAUDRATE                        1000000
#define DEVICENAME1                     "/dev/ttyUSB0"      // Check which port is being used on your controller
#define DEVICENAME2                     "/dev/ttyUSB1"      // ex) Windows: "COM1"   Linux: "/dev/ttyUSB0"

#define TORQUE_ENABLE                   1                   // Value for enabling the torque
#define TORQUE_DISABLE                  0                   // Value for disabling the torque
#define DXL_MINIMUM_POSITION_VALUE      -150000             // Dynamixel will rotate between this value
#define DXL_MAXIMUM_POSITION_VALUE      150000              // and this value (note that the Dynamixel would not move when the position value is out of movable range. Check e-manual about the range of the Dynamixel you use.)
#define DXL_MOVING_STATUS_THRESHOLD     20                  // Dynamixel moving status threshold

#define ESC_ASCII_VALUE                 0x1b

Here we set some variables to let you freely change them and use them to run the example code.

As the document previously said in previous chapter, customize Dynamixel control table items, such as DXL_ID number, communication BAUDRATE, and the DEVICENAME, on your own terms of needs. In particular, BAUDRATE and DEVICENAME have systematical dependencies on your controller, so make clear what kind of communication method you will use.

The example uses two DYNAMIXEL’s DXL1_ID, DXL2_ID connected with each ports DEVICENAME1, DEVICENAME2

Dynamixel basically needs the TORQUE_ENABLE to be rotating or give you its internal information. On the other hand, it doesn’t need torque enabled if you get your goal, so finally do TORQUE_DISABLE to prepare to the next sequence.

Since the Dynamixel has its own rotation range, it may shows malfunction if your request on your dynamixel is out of range. For example, Dynamixel MX-28 and Dynamixel PRO 54-200 has its rotatable range as 0 ~ 4028 and -250950 ~ 250950, each.

DXL_MOVING_STATUS_THRESHOLD acts as a criteria for verifying its rotation stopped.

int getch()
{
#ifdef __linux__
  struct termios oldt, newt;
  int ch;
  tcgetattr(STDIN_FILENO, &oldt);
  newt = oldt;
  newt.c_lflag &= ~(ICANON | ECHO);
  tcsetattr(STDIN_FILENO, TCSANOW, &newt);
  ch = getchar();
  tcsetattr(STDIN_FILENO, TCSANOW, &oldt);
  return ch;
#elif defined(_WIN32) || defined(_WIN64)
  return _getch();
#endif
}

int kbhit(void)
{
#ifdef __linux__
  struct termios oldt, newt;
  int ch;
  int oldf;

  tcgetattr(STDIN_FILENO, &oldt);
  newt = oldt;
  newt.c_lflag &= ~(ICANON | ECHO);
  tcsetattr(STDIN_FILENO, TCSANOW, &newt);
  oldf = fcntl(STDIN_FILENO, F_GETFL, 0);
  fcntl(STDIN_FILENO, F_SETFL, oldf | O_NONBLOCK);

  ch = getchar();

  tcsetattr(STDIN_FILENO, TCSANOW, &oldt);
  fcntl(STDIN_FILENO, F_SETFL, oldf);

  if (ch != EOF)
  {
    ungetc(ch, stdin);
    return 1;
  }

  return 0;
#elif defined(_WIN32) || defined(_WIN64)
  return _kbhit();
#endif
}

These functions accept the key inputs in terms of example action. The example codes mainly apply the function getch() rather than the function kbhit() to get information which key has been pressed.

int main()
{
  // Initialize PortHandler instance
  // Set the port path
  // Get methods and members of PortHandlerLinux or PortHandlerWindows
  dynamixel::PortHandler *portHandler1 = dynamixel::PortHandler::getPortHandler(DEVICENAME1);
  dynamixel::PortHandler *portHandler2 = dynamixel::PortHandler::getPortHandler(DEVICENAME2);


  // Initialize PacketHandler instance
  // Set the protocol version
  // Get methods and members of Protocol1PacketHandler or Protocol2PacketHandler
  dynamixel::PacketHandler *packetHandler = dynamixel::PacketHandler::getPacketHandler(PROTOCOL_VERSION);

  int index = 0;
  int dxl_comm_result = COMM_TX_FAIL;             // Communication result
  int dxl_goal_position[2] = {DXL_MINIMUM_POSITION_VALUE, DXL_MAXIMUM_POSITION_VALUE};         // Goal position

  uint8_t dxl_error = 0;                          // Dynamixel error
  int32_t dxl1_present_position = 0, dxl2_present_position = 0;              // Present position

  // Open port1
  if (portHandler1->openPort())
  {
    printf("Succeeded to open the port!\n");
  }
  else
  {
    printf("Failed to open the port!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Open port2
  if (portHandler2->openPort())
  {
    printf("Succeeded to open the port!\n");
  }
  else
  {
    printf("Failed to open the port!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Set port1 baudrate
  if (portHandler1->setBaudRate(BAUDRATE))
  {
    printf("Succeeded to change the baudrate!\n");
  }
  else
  {
    printf("Failed to change the baudrate!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Set port2 baudrate
  if (portHandler2->setBaudRate(BAUDRATE))
  {
    printf("Succeeded to change the baudrate!\n");
  }
  else
  {
    printf("Failed to change the baudrate!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Enable Dynamixel#1 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }
  else
  {
    printf("Dynamixel#%d has been successfully connected \n", DXL1_ID);
  }

  // Enable Dynamixel#2 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }
  else
  {
    printf("Dynamixel#%d has been successfully connected \n", DXL2_ID);
  }

  while(1)
  {
    printf("Press any key to continue! (or press ESC to quit!)\n");
    if (getch() == ESC_ASCII_VALUE)
      break;

    // Write Dynamixel#1 goal position
    dxl_comm_result = packetHandler->write4ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_GOAL_POSITION, dxl_goal_position[index], &dxl_error);
    if (dxl_comm_result != COMM_SUCCESS)
    {
      packetHandler->printTxRxResult(dxl_comm_result);
    }
    else if (dxl_error != 0)
    {
      packetHandler->printRxPacketError(dxl_error);
    }

    // Write Dynamixel#2 goal position
    dxl_comm_result = packetHandler->write4ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_GOAL_POSITION, dxl_goal_position[index], &dxl_error);
    if (dxl_comm_result != COMM_SUCCESS)
    {
      packetHandler->printTxRxResult(dxl_comm_result);
    }
    else if (dxl_error != 0)
    {
      packetHandler->printRxPacketError(dxl_error);
    }

    do
    {
      // Read Dynamixel#1 present position
      dxl_comm_result = packetHandler->read4ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_PRESENT_POSITION, (uint32_t*)&dxl1_present_position, &dxl_error);
      if (dxl_comm_result != COMM_SUCCESS)
      {
        packetHandler->printTxRxResult(dxl_comm_result);
      }
      else if (dxl_error != 0)
      {
        packetHandler->printRxPacketError(dxl_error);
      }

      // Read Dynamixel#2 present position
      dxl_comm_result = packetHandler->read4ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_PRESENT_POSITION, (uint32_t*)&dxl2_present_position, &dxl_error);
      if (dxl_comm_result != COMM_SUCCESS)
      {
        packetHandler->printTxRxResult(dxl_comm_result);
      }
      else if (dxl_error != 0)
      {
        packetHandler->printRxPacketError(dxl_error);
      }

      printf("[ID:%03d] GoalPos:%03d  PresPos:%03d\t[ID:%03d] GoalPos:%03d  PresPos:%03d\n", DXL1_ID, dxl_goal_position[index], dxl1_present_position, DXL2_ID, dxl_goal_position[index], dxl2_present_position);

    }while((abs(dxl_goal_position[index] - dxl1_present_position) > DXL_MOVING_STATUS_THRESHOLD) || (abs(dxl_goal_position[index] - dxl2_present_position) > DXL_MOVING_STATUS_THRESHOLD));

    // Change goal position
    if (index == 0)
    {
      index = 1;
    }
    else
    {
      index = 0;
    }
  }

  // Disable Dynamixel#1 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }

  // Disable Dynamixel#2 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }

  // Close port1
  portHandler1->closePort();

  // Close port2
  portHandler2->closePort();

  return 0;
}

In main() function, the codes call actual functions for Dynamixel control.

  // Initialize PortHandler instance
  // Set the port path
  // Get methods and members of PortHandlerLinux or PortHandlerWindows
  dynamixel::PortHandler *portHandler1 = dynamixel::PortHandler::getPortHandler(DEVICENAME1);
  dynamixel::PortHandler *portHandler2 = dynamixel::PortHandler::getPortHandler(DEVICENAME2);

getPortHandler() function sets port path as DEVICENAME1 and DEVICENAME2 in each porthandler portHandler1 and portHandler2, and prepare an appropriate dynamixel::PortHandlers in controller OS automatically.

  // Initialize PacketHandler instance
  // Set the protocol version
  // Get methods and members of Protocol1PacketHandler or Protocol2PacketHandler
  dynamixel::PacketHandler *packetHandler = dynamixel::PacketHandler::getPacketHandler(PROTOCOL_VERSION);

getPacketHandler() function sets the methods for packet construction by choosing the PROTOCOL_VERSION.

  int index = 0;
  int dxl_comm_result = COMM_TX_FAIL;             // Communication result
  int dxl_goal_position[2] = {DXL_MINIMUM_POSITION_VALUE, DXL_MAXIMUM_POSITION_VALUE};         // Goal position

  uint8_t dxl_error = 0;                          // Dynamixel error
  int32_t dxl1_present_position = 0, dxl2_present_position = 0;              // Present position

index variable points the direction to where the Dynamixel should be rotated.

dxl_comm_result indicates which error has been occurred during packet communication.

dxl_goal_position stores goal points of Dynamixel rotation.

dxl_error shows the internal error in Dynamixel.

dxl1_present_position and dxl2_present_position view where now each Dynamixel points out.

  // Open port1
  if (portHandler1->openPort())
  {
    printf("Succeeded to open the port!\n");
  }
  else
  {
    printf("Failed to open the port!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Open port2
  if (portHandler2->openPort())
  {
    printf("Succeeded to open the port!\n");
  }
  else
  {
    printf("Failed to open the port!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

First, controller opens two ports to do serial communication with each Dynamixel. If it fails to open the port, the example will be terminated.

  // Set port1 baudrate
  if (portHandler1->setBaudRate(BAUDRATE))
  {
    printf("Succeeded to change the baudrate!\n");
  }
  else
  {
    printf("Failed to change the baudrate!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

  // Set port2 baudrate
  if (portHandler2->setBaudRate(BAUDRATE))
  {
    printf("Succeeded to change the baudrate!\n");
  }
  else
  {
    printf("Failed to change the baudrate!\n");
    printf("Press any key to terminate...\n");
    getch();
    return 0;
  }

Secondly, the controller sets the communication BAUDRATE at each port opened previously.

  // Enable Dynamixel#1 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }
  else
  {
    printf("Dynamixel#%d has been successfully connected \n", DXL1_ID);
  }

  // Enable Dynamixel#2 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }
  else
  {
    printf("Dynamixel#%d has been successfully connected \n", DXL2_ID);
  }

As mentioned in the document, above code enables each Dynamixel`s torque to set their status as being ready to move.

dynamixel::PacketHandler::write1ByteTxRx() function sends an instruction to the #DXL_ID Dynamixel through the port which the portHandler handles, writing 1 bytes of TORQUE_ENABLE value to ADDR_PRO_TORQUE_ENABLE address. Then, it receives the dxl_error. The function returns 0 if no communication error has been occurred.

  while(1)
  {
    printf("Press any key to continue! (or press ESC to quit!)\n");
    if (getch() == ESC_ASCII_VALUE)
      break;

    // Write Dynamixel#1 goal position
    dxl_comm_result = packetHandler->write4ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_GOAL_POSITION, dxl_goal_position[index], &dxl_error);
    if (dxl_comm_result != COMM_SUCCESS)
    {
      packetHandler->printTxRxResult(dxl_comm_result);
    }
    else if (dxl_error != 0)
    {
      packetHandler->printRxPacketError(dxl_error);
    }

    // Write Dynamixel#2 goal position
    dxl_comm_result = packetHandler->write4ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_GOAL_POSITION, dxl_goal_position[index], &dxl_error);
    if (dxl_comm_result != COMM_SUCCESS)
    {
      packetHandler->printTxRxResult(dxl_comm_result);
    }
    else if (dxl_error != 0)
    {
      packetHandler->printRxPacketError(dxl_error);
    }

    do
    {
      // Read Dynamixel#1 present position
      dxl_comm_result = packetHandler->read4ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_PRESENT_POSITION, (uint32_t*)&dxl1_present_position, &dxl_error);
      if (dxl_comm_result != COMM_SUCCESS)
      {
        packetHandler->printTxRxResult(dxl_comm_result);
      }
      else if (dxl_error != 0)
      {
        packetHandler->printRxPacketError(dxl_error);
      }

      // Read Dynamixel#2 present position
      dxl_comm_result = packetHandler->read4ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_PRESENT_POSITION, (uint32_t*)&dxl2_present_position, &dxl_error);
      if (dxl_comm_result != COMM_SUCCESS)
      {
        packetHandler->printTxRxResult(dxl_comm_result);
      }
      else if (dxl_error != 0)
      {
        packetHandler->printRxPacketError(dxl_error);
      }

      printf("[ID:%03d] GoalPos:%03d  PresPos:%03d\t[ID:%03d] GoalPos:%03d  PresPos:%03d\n", DXL1_ID, dxl_goal_position[index], dxl1_present_position, DXL2_ID, dxl_goal_position[index], dxl2_present_position);

    }while((abs(dxl_goal_position[index] - dxl1_present_position) > DXL_MOVING_STATUS_THRESHOLD) || (abs(dxl_goal_position[index] - dxl2_present_position) > DXL_MOVING_STATUS_THRESHOLD));

    // Change goal position
    if (index == 0)
    {
      index = 1;
    }
    else
    {
      index = 0;
    }
  }

  // Disable Dynamixel#1 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }

  // Disable Dynamixel#2 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }

  // Close port1
  portHandler1->closePort();

  // Close port2
  portHandler2->closePort();

  return 0;
}```

During `while()` loop, the controller writes and reads each Dynamixel position through packet transmission/reception(Tx/Rx).

To continue their rotation, press any key except ESC.

`dynamixel::PacketHandler::write4ByteTxRx()` functions order to the Dynamixel #`DXL1_ID` and #`DXL2_ID` through the ports which the `portHandler1` and `portHandler2` handles each, writing 4 bytes of `dxl_goal_position[index]` values to `ADDR_PRO_GOAL_POSITION` address. Then, they receive the `dxl_error`s. The functions return 0 if no communication error has been occurred.

`dynamixel::PacketHandler::read4ByteTxRx()` functions order to the Dynamixel #`DXL1_ID` and #`DXL2_ID` through the port which the `portHandler1` and `portHandler2` handles each, requesting 4 bytes of values of `ADDR_PRO_PRESENT_POSITION` address. Then, they receive `dxl_present_position`s and `dxl_error`s. The functions return 0 if no communication error has been occurred.

Reading their present position will be ended when absolute value of `(dxl1_goal_position[index] - dxl1_present_position)` or `(dxl2_goal_position[index] - dxl2_present_position)` becomes smaller then `DXL_MOVING_STATUS_THRESHOLD`.

At last, it changes their direction to the counter-wise and waits for extra key input.

``` cpp
  // Disable Dynamixel#1 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler1, DXL1_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }

  // Disable Dynamixel#2 Torque
  dxl_comm_result = packetHandler->write1ByteTxRx(portHandler2, DXL2_ID, ADDR_PRO_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
  if (dxl_comm_result != COMM_SUCCESS)
  {
    packetHandler->printTxRxResult(dxl_comm_result);
  }
  else if (dxl_error != 0)
  {
    packetHandler->printRxPacketError(dxl_error);
  }

The controller frees the DYNAMIXEL to be idle.

dynamixel::PacketHandler::write1ByteTxRx() function sends an instruction to the #DXL_ID Dynamixel through the port which the portHandler handles, writing 1 bytes of TORQUE_DISABLE value to ADDR_PRO_TORQUE_ENABLE address. Then, it receives the dxl_error. The function returns 0 if no communication error has been occurred.

  // Close port1
  portHandler1->closePort();

  // Close port2
  portHandler2->closePort();

  return 0;

Finally, ports become disposed.