0811_human_no_accel_yes_velocity.txt

#if defined(__linux__) || defined(__APPLE__)
#include <fcntl.h>
#include <termios.h>
#define STDIN_FILENO 0
#elif defined(_WIN32) || defined(_WIN64)
#include <conio.h>
#endif

#pragma comment(lib, "ws2_32.lib")
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#include <iostream>
#include <cstdlib>
#include <string>
#include <winsock2.h>
#include <Windows.h>
#include <cstring>
#include "dynamixel_sdk.h"
#define _WINSOCK_DEPRECATED_NO_WARNINGS
#define PORT 10000
#define PI 3.1415

using namespace std;

////////////////////////////////////////////
// Control table address
////////////////////////////////////////////

// Control table address for Dynamixel MX protocol 1
#define ADDR_MX_TORQUE_ENABLE           24                  
#define ADDR_MX_GOAL_POSITION           30
#define ADDR_MX_PRESENT_POSITION        36
#define ADDR_MX_MOVING_SPEED            32

//  Control table address for Dynamixel XM430 
#define ADDR_XM430_TORQUE_ENABLE          64
#define ADDR_XM430_GOAL_POSITION          116
#define ADDR_XM430_PRESENT_POSITION       132
//#define ADDR_XM430_PROFILE_ACCELERATION   108
#define ADDR_XM430_PROFILE_VELOCITY       112

////////////////////////////////////////////
// Protocol version
////////////////////////////////////////////

#define PROTOCOL_VERSION1               1.0                
#define PROTOCOL_VERSION2               2.0

////////////////////////////////////////////
// Default setting 
////////////////////////////////////////////

#define DXL1_ID                         12                 // Dynamixel#1 ID: 12
#define DXL2_ID                         14                 // Dynamixel#2 ID: 14
#define DXL3_ID                         3                   // Dynamixel#3 ID: 3
#define DXL4_ID                         13                 // Dynamixel#4 ID: 13
#define BAUDRATE                        57600
#define DEVICENAME                      "COM4"      // Check which port is being used on your controller
															// ex) Windows: "COM1"   Linux: "/dev/ttyUSB0" Mac: "/dev/tty.usbserial-*"

#define TORQUE_ENABLE                   1                   // Value for enabling the torque
#define TORQUE_DISABLE                  0                   // Value for disabling the torque

#define DXL1_MOVING_STATUS_THRESHOLD    15                  // Dynamixel MX moving status threshold 
#define DXL2_MOVING_STATUS_THRESHOLD    15                  // Dynamixel XM430 moving status threshold
#define DXL3_MOVING_STATUS_THRESHOLD    15                  // Dynamixel XM430 moving status threshold
#define DXL4_MOVING_STATUS_THRESHOLD    15                  // Dynamixel XM430 moving status threshold

#define ESC_ASCII_VALUE                 0x1b


void ShowErrorMessage(string message)
{
	cout << "Error: " << message << '\n';
	system("pause");
	exit(1);
}

int getch()
{
#if defined(__linux__) || defined(__APPLE__)
	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)
{
#if defined(__linux__) || defined(__APPLE__)
	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
}

// all functions 
//
//
//
//
//
//
void write_pos_front(void); //write front position (2, 3, 4th motors)
void write_pos_back(void); //write back position (2, 3, 4th motors)

void write_steer_front(void); //write steering direction (1st motor)
void write_steer_back(void); //initialize steering direction (1st motor)

void write_vel_front(void); //write front velocity (2, 3, 4th motors)
void write_vel_back(void); //write back velocity (2, 3, 4th motors)

void write_vel_steer(void); //write front velocity (1st motor)

void en_torq(void); // enable torque
void dis_torq(void); //disable torque
void read_pos(void); //read position
void print_pres_pos(void);


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

// Initialize PacketHandler instance
// Set the protocol version
// Get methods and members of Protocol1PacketHandler or Protocol2PacketHandler
dynamixel::PacketHandler* packetHandler1 = dynamixel::PacketHandler::getPacketHandler(PROTOCOL_VERSION2);
dynamixel::PacketHandler* packetHandler2 = dynamixel::PacketHandler::getPacketHandler(PROTOCOL_VERSION2);
dynamixel::PacketHandler* packetHandler3 = dynamixel::PacketHandler::getPacketHandler(PROTOCOL_VERSION1);
dynamixel::PacketHandler* packetHandler4 = dynamixel::PacketHandler::getPacketHandler(PROTOCOL_VERSION2);

int dxl_comm_result = COMM_TX_FAIL;       // Communication result

// position setting
//
//
//
//
//
//
//front position and back position (2, 3, 4th motors)
int dxl_2_front_pos_deg = 218;  //id 14       range 0~360
int dxl_3_front_pos_deg = 140; //id 3 (mx)    range 0~360
int dxl_4_front_pos_deg = 190; //id  13       range 0~360

int dxl_2_back_pos_deg = 246; //id 14         range 0~360
int dxl_3_back_pos_deg = 108; //id 3 (mx)     range 0~360
int dxl_4_back_pos_deg = 185; //id  13        range 0~360

//front position and back position (1st motor)
int dxl_1_front_pos_deg = 180;  //id 12      range 0~360
int dxl_1_back_pos_deg = 180;   //id 12      range 0~360

//mapping 360 degree to 4096
int dxl_1_front_pos = int(dxl_1_front_pos_deg * 11.38);
int dxl_1_back_pos = int(dxl_1_back_pos_deg * 11.38);
int dxl_2_front_pos = int(dxl_2_front_pos_deg * 11.38);
int dxl_2_back_pos = int(dxl_2_back_pos_deg * 11.38);
int dxl_3_front_pos = int(dxl_3_front_pos_deg * 11.38);
int dxl_3_back_pos = int(dxl_3_back_pos_deg * 11.38);
int dxl_4_front_pos = int(dxl_4_front_pos_deg * 11.38);
int dxl_4_back_pos = int(dxl_4_back_pos_deg * 11.38);

//Goal position setting
int dxl1_goal_position[2] = { dxl_1_back_pos, dxl_1_front_pos };     // Goal position of Dynamixel 1
int dxl2_goal_position[2] = { dxl_2_back_pos, dxl_2_front_pos };     // Goal position of Dynamixel 2
int dxl3_goal_position[2] = { dxl_3_back_pos, dxl_3_front_pos };     // Goal position of Dynamixel 3
int dxl4_goal_position[2] = { dxl_4_back_pos, dxl_4_front_pos };     // Goal position of Dynamixel 4



//Velocity setting
//
// 
// 
// 
// 2,3,4th motors velocity
int dxl2_front_vel = 218;      //range: 0 ~ 32,767
int dxl3_front_vel = 218;      //range: 0~1023
int dxl4_front_vel = 218;      //range: 0 ~ 32,767

int dxl2_back_vel = 218;      //range: 0 ~ 32,767
int dxl3_back_vel = 218;      //range: 0~1023
int dxl4_back_vel = 218;      //range: 0 ~ 32,767

int dxl2_vel[2] = { dxl2_back_vel, dxl2_front_vel };
int dxl3_vel[2] = { dxl3_back_vel, dxl3_front_vel };
int dxl4_vel[2] = { dxl4_back_vel, dxl4_front_vel };

// 1st motor velocity
int dxl1_vel = 0;

//present position variable
uint8_t dxl_error = 0;                    // Dynamixel error
int32_t dxl1_present_position = 0;       // Present position of Dynamixel 1
int32_t dxl2_present_position = 0;        // Present position of Dynamixel 2
uint16_t dxl3_present_position = 0;        // Present position of Dynamixel 3
int32_t dxl4_present_position = 0;        // Present position of Dynamixel 4



int main()
{
	// Initiate communication at first.
	WSADATA wsaData;
	SOCKET clientSocket;
	SOCKADDR_IN serverAddress;
	char received[256], * seg;
	int recv_arr, ang_deg;
	double recv_ang, abs_recv_ang;
	string sent;
	if (WSAStartup(MAKEWORD(2, 2), &wsaData) != 0) // Winsock
		ShowErrorMessage("WSAStartup()");
	clientSocket = socket(PF_INET, SOCK_STREAM, 0); // TCP
	if (clientSocket == INVALID_SOCKET)
		ShowErrorMessage("socket()");
	memset(&serverAddress, 0, sizeof(serverAddress));
	serverAddress.sin_family = AF_INET;
	serverAddress.sin_addr.s_addr = inet_addr("127.0.0.1"); // IP  
	serverAddress.sin_port = htons(PORT);   

	if (connect(clientSocket, (SOCKADDR*)&serverAddress, sizeof(serverAddress)) == SOCKET_ERROR)
		ShowErrorMessage("connect()");
	cout << "[Status] connect()\n";
	send(clientSocket, "r", 1, 0);

	// Open port
	if (portHandler->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 port baudrate
	if (portHandler->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 Torque
	//
	//
	//
	//
	en_torq();

	// initialize to reference value(velocity, position)
	//
	//
	//
	//
	//
	
	write_vel_back();
	write_vel_steer();

	write_pos_back();;
	write_steer_back();

	
	//repeat while true --> one loop one input from TCP-IP communication
	//
	//
	//
	//
	//
	while (1) {

		printf("waiting for input from python server..\n");
		int length = recv(clientSocket, received, sizeof(received), 0);
		if (!length || length >> 6) continue;
		received[length] = '\0';
		cout << "Message: " << received << '\n';
		seg = strtok(received, ",");
		if (seg == NULL)    continue;

		//Two input: recv_arr, recv_ang
		//
		//
		//
		//
		recv_arr = atoi(seg), seg = strtok(NULL, ","); //integer, ETA (arrival time)
		if (seg == NULL)    continue;
		recv_ang = atof(seg), seg = strtok(NULL, ","); //double, tangent angle
		cout << "arrival time: " << recv_arr << " angle: " << recv_ang << endl;

		// ang_deg  == goal_posiion of motor No.12
		//
		//
		//
		//
		if (recv_ang >= 0)
		{
			if (recv_ang < 1)	ang_deg = 1536;
			else if (recv_ang < 20)	ang_deg = 1024 + floor(atan(recv_ang) * 2048 / PI);
			else
			{
				ang_deg = 2048;
			}
		}
		else
		{
			if (recv_ang > -1)	ang_deg = 2560;
			else if (recv_ang > -20)	ang_deg = 3092 + floor(atan(recv_ang) * 2048 / PI);
			else
			{
				ang_deg = 2048;
			}
		}


		dxl_1_front_pos = ang_deg;

		int HIT_NOW = 0; // Hit now
		if (recv_arr > 0) // ETA
		{
			write_vel_front(); //velocity write
			write_steer_front();
			//Zzzzzzzzzzzzz
			Sleep(recv_arr - 50);
			//Zzzzzzzzzzzzz
			HIT_NOW = 1; //hit now
		}
		else {
			HIT_NOW = 0;
		}

		// one hit loop
		//
		//
		//
		//
		//
		//
		//
		if (HIT_NOW == 1) {
			//write front position
			write_pos_front();
			while (1) {
				read_pos();
				if ((abs(dxl2_goal_position[1] - dxl2_present_position) > DXL2_MOVING_STATUS_THRESHOLD) || (abs(dxl3_goal_position[1] - dxl3_present_position) > DXL3_MOVING_STATUS_THRESHOLD) || (abs(dxl4_goal_position[1] - dxl4_present_position) > DXL4_MOVING_STATUS_THRESHOLD))
				{
					continue;
				}
				else {
					print_pres_pos();
					break;
				}
			}
			//write back_position
			write_vel_back();
			write_pos_back();
			write_steer_back();
		}
		else {
			continue;
		}
	}
	////////////////////////////////////////////
	//loop end
	////////////////////////////////////////////

	dis_torq();
	// Close port
	portHandler->closePort();

	// Terminate Communication.
	closesocket(clientSocket);
	WSACleanup();
	system("pause");
	return 0;
}


void write_pos_front(void) { //2, 3, 4th motors

	// Write Dynamixel#2 goal position
	dxl_comm_result = packetHandler2->write4ByteTxRx(portHandler, DXL2_ID, ADDR_XM430_GOAL_POSITION, dxl2_goal_position[1], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler2->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler2->getRxPacketError(dxl_error));
	}

	// Write Dynamixel#3 goal position
	dxl_comm_result = packetHandler3->write2ByteTxRx(portHandler, DXL3_ID, ADDR_MX_GOAL_POSITION, dxl3_goal_position[1], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler3->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler3->getRxPacketError(dxl_error));
	}

	// Write Dynamixel#4 goal position
	dxl_comm_result = packetHandler4->write4ByteTxRx(portHandler, DXL4_ID, ADDR_XM430_GOAL_POSITION, dxl4_goal_position[1], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler4->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler4->getRxPacketError(dxl_error));
	}
}

void write_pos_back(void) { //2, 3, 4th motors

	// Write Dynamixel#2 goal position
	dxl_comm_result = packetHandler2->write4ByteTxRx(portHandler, DXL2_ID, ADDR_XM430_GOAL_POSITION, dxl2_goal_position[0], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler2->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler2->getRxPacketError(dxl_error));
	}

	// Write Dynamixel#3 goal position
	dxl_comm_result = packetHandler3->write2ByteTxRx(portHandler, DXL3_ID, ADDR_MX_GOAL_POSITION, dxl3_goal_position[0], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler3->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler3->getRxPacketError(dxl_error));
	}

	// Write Dynamixel#4 goal position
	dxl_comm_result = packetHandler4->write4ByteTxRx(portHandler, DXL4_ID, ADDR_XM430_GOAL_POSITION, dxl4_goal_position[0], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler4->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler4->getRxPacketError(dxl_error));
	}
}

void write_steer_front(void) { //1st motor
	// Write Dynamixel#1 goal position
	dxl_comm_result = packetHandler1->write4ByteTxRx(portHandler, DXL1_ID, ADDR_XM430_GOAL_POSITION, dxl1_goal_position[1], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler1->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler1->getRxPacketError(dxl_error));
	}
}

void write_steer_back(void) { //1st motor
	// Write Dynamixel#1 goal position
	dxl_comm_result = packetHandler1->write4ByteTxRx(portHandler, DXL1_ID, ADDR_XM430_GOAL_POSITION, dxl1_goal_position[0], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler1->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler1->getRxPacketError(dxl_error));
	}
}

void write_vel_front(void) { //Write velocity for motors (2, 3, 4th motors)

	dxl_comm_result = packetHandler2->write4ByteTxRx(portHandler, DXL2_ID, ADDR_XM430_PROFILE_VELOCITY, dxl2_vel[1], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler2->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler2->getRxPacketError(dxl_error));
	}

	dxl_comm_result = packetHandler3->write2ByteTxRx(portHandler, DXL3_ID, ADDR_MX_MOVING_SPEED, dxl3_vel[1], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler3->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler3->getRxPacketError(dxl_error));
	}


	dxl_comm_result = packetHandler4->write4ByteTxRx(portHandler, DXL4_ID, ADDR_XM430_PROFILE_VELOCITY, dxl4_vel[1], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler4->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler4->getRxPacketError(dxl_error));
	}
}

void write_vel_back(void) { //Write back velocity for motors (2, 3, 4th motors)

	dxl_comm_result = packetHandler2->write4ByteTxRx(portHandler, DXL2_ID, ADDR_XM430_PROFILE_VELOCITY, dxl2_vel[0], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler2->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler2->getRxPacketError(dxl_error));
	}

	dxl_comm_result = packetHandler3->write2ByteTxRx(portHandler, DXL3_ID, ADDR_MX_MOVING_SPEED, dxl3_vel[0], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler3->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler3->getRxPacketError(dxl_error));
	}


	dxl_comm_result = packetHandler4->write4ByteTxRx(portHandler, DXL4_ID, ADDR_XM430_PROFILE_VELOCITY, dxl4_vel[0], &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler4->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler4->getRxPacketError(dxl_error));
	}
}

void write_vel_steer(void) { //1st motor
	dxl_comm_result = packetHandler1->write4ByteTxRx(portHandler, DXL1_ID, ADDR_XM430_PROFILE_VELOCITY, dxl1_vel, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler1->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler1->getRxPacketError(dxl_error));
	}
}

void en_torq(void) { // Enable Torque 
	// Enable Dynamixel#1 torque
	dxl_comm_result = packetHandler1->write1ByteTxRx(portHandler, DXL1_ID, ADDR_XM430_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler1->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler1->getRxPacketError(dxl_error));
	}
	else {
		printf("Dynamixel#%d has been successfully connected \n", DXL1_ID);
	}

	// Enable Dynamixel#2 torque
	dxl_comm_result = packetHandler2->write1ByteTxRx(portHandler, DXL2_ID, ADDR_XM430_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler2->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler2->getRxPacketError(dxl_error));
	}
	else {
		printf("Dynamixel#%d has been successfully connected \n", DXL2_ID);
	}

	// Enable Dynamixel#3 torque
	dxl_comm_result = packetHandler3->write1ByteTxRx(portHandler, DXL3_ID, ADDR_MX_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler3->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler3->getRxPacketError(dxl_error));
	}
	else {
		printf("Dynamixel#%d has been successfully connected \n", DXL3_ID);
	}

	// Enable Dynamixel#4 torque
	dxl_comm_result = packetHandler4->write1ByteTxRx(portHandler, DXL4_ID, ADDR_XM430_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler4->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler4->getRxPacketError(dxl_error));
	}
	else {
		printf("Dynamixel#%d has been successfully connected \n", DXL4_ID);
	}
}
void dis_torq(void) { // Disable Dynamixel Torque 
	// Disable Dynamixel#1 Torque
	dxl_comm_result = packetHandler1->write1ByteTxRx(portHandler, DXL1_ID, ADDR_XM430_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS)
	{
		printf("%s\n", packetHandler1->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0)
	{
		printf("%s\n", packetHandler1->getRxPacketError(dxl_error));
	}

	// Disable Dynamixel#2 Torque
	dxl_comm_result = packetHandler2->write1ByteTxRx(portHandler, DXL2_ID, ADDR_XM430_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS)
	{
		printf("%s\n", packetHandler2->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0)
	{
		printf("%s\n", packetHandler2->getRxPacketError(dxl_error));
	}

	// Disable Dynamixel#3 Torque
	dxl_comm_result = packetHandler3->write1ByteTxRx(portHandler, DXL3_ID, ADDR_MX_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS)
	{
		printf("%s\n", packetHandler3->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0)
	{
		printf("%s\n", packetHandler3->getRxPacketError(dxl_error));
	}

	// Disable Dynamixel#4 Torque
	dxl_comm_result = packetHandler4->write1ByteTxRx(portHandler, DXL4_ID, ADDR_XM430_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS)
	{
		printf("%s\n", packetHandler4->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0)
	{
		printf("%s\n", packetHandler4->getRxPacketError(dxl_error));
	}
}


void read_pos(void) { //four motors
	// Read Dynamixel#1 present position
	dxl_comm_result = packetHandler1->read4ByteTxRx(portHandler, DXL1_ID, ADDR_XM430_PRESENT_POSITION, (uint32_t*)&dxl1_present_position, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler1->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler1->getRxPacketError(dxl_error));
	}

	// Read Dynamixel#2 present position
	dxl_comm_result = packetHandler2->read4ByteTxRx(portHandler, DXL2_ID, ADDR_XM430_PRESENT_POSITION, (uint32_t*)&dxl2_present_position, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler2->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler2->getRxPacketError(dxl_error));
	}

	// Read Dynamixel#3 present position
	dxl_comm_result = packetHandler3->read2ByteTxRx(portHandler, DXL3_ID, ADDR_MX_PRESENT_POSITION, &dxl3_present_position, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler3->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler3->getRxPacketError(dxl_error));
	}

	// Read Dynamixel#4 present position
	dxl_comm_result = packetHandler4->read4ByteTxRx(portHandler, DXL4_ID, ADDR_XM430_PRESENT_POSITION, (uint32_t*)&dxl4_present_position, &dxl_error);
	if (dxl_comm_result != COMM_SUCCESS) {
		printf("%s\n", packetHandler4->getTxRxResult(dxl_comm_result));
	}
	else if (dxl_error != 0) {
		printf("%s\n", packetHandler4->getRxPacketError(dxl_error));
	}
	
}

void print_pres_pos(void) { //four motors
	printf("[#%d] Goal: %03d Pres: %03d  [#%d] Goal: %03d Pres: %03d  [#%d] Goal: %03d Pres: %03d  [#%d] Goal: %03d Pres: %03d\n",
		1, dxl1_goal_position[1], dxl1_present_position, 2, dxl2_goal_position[1], dxl2_present_position, 3, dxl3_goal_position[1], dxl3_present_position, 4, dxl4_goal_position[1], dxl4_present_position);
}