B45i/Arduino CNC Plotter.ino

## Arduino CNC Plotter.ino
#include <Servo.h>
#include <Stepper.h>

#define LINE_BUFFER_LENGTH 512

// Servo position for Up and Down
const int penZUp = 80;
const int penZDown = 40;

// Servo on PWM pin 6
const int penServoPin = 6;

// Should be right for DVD steppers, but is not too important here
const int stepsPerRevolution = 20;

// create servo object to control a servo
Servo penServo;

// Initialize steppers for X- and Y-axis using this Arduino pins for the L293D H-bridge
Stepper myStepperY(stepsPerRevolution, 2,3,4,5);
Stepper myStepperX(stepsPerRevolution, 8,9,10,11);

/* Structures, global variables    */
struct point {
  float x;
  float y;
  float z;
};

// Current position of plothead
struct point actuatorPos;

//  Drawing settings, should be OK
float StepInc = 1;
int StepDelay = 0;
int LineDelay = 50;
int penDelay = 50;

// Motor steps to go 1 millimeter.
// Use test sketch to go 100 steps. Measure the length of line.
// Calculate steps per mm. Enter here.
float StepsPerMillimeterX = 6.0;
float StepsPerMillimeterY = 6.0;

// Drawing robot limits, in mm
// OK to start with. Could go up to 50 mm if calibrated well.
float Xmin = 0;
float Xmax = 40;
float Ymin = 0;
float Ymax = 40;
float Zmin = 0;
float Zmax = 1;

float Xpos = Xmin;
float Ypos = Ymin;
float Zpos = Zmax;

// Set to true to get debug output.
boolean verbose = false;

//  Needs to interpret
//  G1 for moving
//  G4 P300 (wait 150ms)
//  M300 S30 (pen down)
//  M300 S50 (pen up)
//  Discard anything with a (
//  Discard any other command!

/**********************
 * void setup() - Initialisations
 ***********************/
void setup() {
  //  Setup
  Serial.begin( 9600 );

  penServo.attach(penServoPin);
  penServo.write(penZUp);
  delay(200);

  // Decrease if necessary
  myStepperX.setSpeed(250);
  myStepperY.setSpeed(250);

  //  Set & move to initial default position
  // TBD

  //  Notifications!!!
  Serial.println("Mini CNC Plotter alive and kicking!");
  Serial.print("X range is from ");
  Serial.print(Xmin);
  Serial.print(" to ");
  Serial.print(Xmax);
  Serial.println(" mm.");
  Serial.print("Y range is from ");
  Serial.print(Ymin);
  Serial.print(" to ");
  Serial.print(Ymax);
  Serial.println(" mm.");
}

/**********************
 * void loop() - Main loop
 ***********************/
void loop()
{
  delay(200);
  char line[ LINE_BUFFER_LENGTH ];
  char c;
  int lineIndex;
  bool lineIsComment, lineSemiColon;

  lineIndex = 0;
  lineSemiColon = false;
  lineIsComment = false;

  while (1) {

    // Serial reception - Mostly from Grbl, added semicolon support
    while ( Serial.available()>0 ) {
      c = Serial.read();
      if (( c == '\n') || (c == '\r') ) {             // End of line reached
        if ( lineIndex > 0 ) {                        // Line is complete. Then execute!
          line[ lineIndex ] = '\0';                   // Terminate string
          if (verbose) {
            Serial.print( "Received : ");
            Serial.println( line );
          }
          processIncomingLine( line, lineIndex );
          lineIndex = 0;
        }
        else {
          // Empty or comment line. Skip block.
        }
        lineIsComment = false;
        lineSemiColon = false;
        Serial.println("ok");
      }
      else {
        if ( (lineIsComment) || (lineSemiColon) ) {   // Throw away all comment characters
          if ( c == ')' )  lineIsComment = false;     // End of comment. Resume line.
        }
        else {
          if ( c <= ' ' ) {                           // Throw away whitepace and control characters
          }
          else if ( c == '/' ) {                    // Block delete not supported. Ignore character.
          }
          else if ( c == '(' ) {                    // Enable comments flag and ignore all characters until ')' or EOL.
            lineIsComment = true;
          }
          else if ( c == ';' ) {
            lineSemiColon = true;
          }
          else if ( lineIndex >= LINE_BUFFER_LENGTH-1 ) {
            Serial.println( "ERROR - lineBuffer overflow" );
            lineIsComment = false;
            lineSemiColon = false;
          }
          else if ( c >= 'a' && c <= 'z' ) {        // Upcase lowercase
            line[ lineIndex++ ] = c-'a'+'A';
          }
          else {
            line[ lineIndex++ ] = c;
          }
        }
      }
    }
  }
}

void processIncomingLine( char* line, int charNB ) {
  int currentIndex = 0;
  char buffer[ 64 ];                                 // Hope that 64 is enough for 1 parameter
  struct point newPos;

  newPos.x = 0.0;
  newPos.y = 0.0;

  //  Needs to interpret
  //  G1 for moving
  //  G4 P300 (wait 150ms)
  //  G1 X60 Y30
  //  G1 X30 Y50
  //  M300 S30 (pen down)
  //  M300 S50 (pen up)
  //  Discard anything with a (
  //  Discard any other command!

  while( currentIndex < charNB ) {
    switch ( line[ currentIndex++ ] ) {              // Select command, if any
    case 'U':
      penUp();
      break;
    case 'D':
      penDown();
      break;
    case 'G':
      buffer[0] = line[ currentIndex++ ];          // /!\ Dirty - Only works with 2 digit commands
      //      buffer[1] = line[ currentIndex++ ];
      //      buffer[2] = '\0';
      buffer[1] = '\0';

      switch ( atoi( buffer ) ){                   // Select G command
      case 0:                                   // G00 & G01 - Movement or fast movement. Same here
      case 1:
        // /!\ Dirty - Suppose that X is before Y
        char* indexX = strchr( line+currentIndex, 'X' );  // Get X/Y position in the string (if any)
        char* indexY = strchr( line+currentIndex, 'Y' );
        if ( indexY <= 0 ) {
          newPos.x = atof( indexX + 1);
          newPos.y = actuatorPos.y;
        }
        else if ( indexX <= 0 ) {
          newPos.y = atof( indexY + 1);
          newPos.x = actuatorPos.x;
        }
        else {
          newPos.y = atof( indexY + 1);
          indexY = '\0';
          newPos.x = atof( indexX + 1);
        }
        drawLine(newPos.x, newPos.y );
        //        Serial.println("ok");
        actuatorPos.x = newPos.x;
        actuatorPos.y = newPos.y;
        break;
      }
      break;
    case 'M':
      buffer[0] = line[ currentIndex++ ];        // /!\ Dirty - Only works with 3 digit commands
      buffer[1] = line[ currentIndex++ ];
      buffer[2] = line[ currentIndex++ ];
      buffer[3] = '\0';
      switch ( atoi( buffer ) ){
      case 300:
        {
          char* indexS = strchr( line+currentIndex, 'S' );
          float Spos = atof( indexS + 1);
          //          Serial.println("ok");
          if (Spos == 30) {
            penDown();
          }
          if (Spos == 50) {
            penUp();
          }
          break;
        }
      case 114:                                // M114 - Repport position
        Serial.print( "Absolute position : X = " );
        Serial.print( actuatorPos.x );
        Serial.print( "  -  Y = " );
        Serial.println( actuatorPos.y );
        break;
      default:
        Serial.print( "Command not recognized : M");
        Serial.println( buffer );
      }
    }
  }


}


/*********************************
 * Draw a line from (x0;y0) to (x1;y1).
 * Bresenham algo from https://www.marginallyclever.com/blog/2013/08/how-to-build-an-2-axis-arduino-cnc-gcode-interpreter/
 * int (x1;y1) : Starting coordinates
 * int (x2;y2) : Ending coordinates
 **********************************/
void drawLine(float x1, float y1) {

  if (verbose)
  {
    Serial.print("fx1, fy1: ");
    Serial.print(x1);
    Serial.print(",");
    Serial.print(y1);
    Serial.println("");
  }

  //  Bring instructions within limits
  if (x1 >= Xmax) {
    x1 = Xmax;
  }
  if (x1 <= Xmin) {
    x1 = Xmin;
  }
  if (y1 >= Ymax) {
    y1 = Ymax;
  }
  if (y1 <= Ymin) {
    y1 = Ymin;
  }

  if (verbose)
  {
    Serial.print("Xpos, Ypos: ");
    Serial.print(Xpos);
    Serial.print(",");
    Serial.print(Ypos);
    Serial.println("");
  }

  if (verbose)
  {
    Serial.print("x1, y1: ");
    Serial.print(x1);
    Serial.print(",");
    Serial.print(y1);
    Serial.println("");
  }

  //  Convert coordinates to steps
  x1 = (int)(x1*StepsPerMillimeterX);
  y1 = (int)(y1*StepsPerMillimeterY);
  float x0 = Xpos;
  float y0 = Ypos;

  //  Let's find out the change for the coordinates
  long dx = abs(x1-x0);
  long dy = abs(y1-y0);
  int sx = x0<x1 ? StepInc : -StepInc;
  int sy = y0<y1 ? StepInc : -StepInc;

  long i;
  long over = 0;

  if (dx > dy) {
    for (i=0; i<dx; ++i) {
      myStepperX.step(sx);
      over+=dy;
      if (over>=dx) {
        over-=dx;
        myStepperY.step(sy);
      }
      delay(StepDelay);
    }
  }
  else {
    for (i=0; i<dy; ++i) {
      myStepperY.step(sy);
      over+=dx;
      if (over>=dy) {
        over-=dy;
        myStepperX.step(sx);
      }
      delay(StepDelay);
    }
  }

  if (verbose)
  {
    Serial.print("dx, dy:");
    Serial.print(dx);
    Serial.print(",");
    Serial.print(dy);
    Serial.println("");
  }

  if (verbose)
  {
    Serial.print("Going to (");
    Serial.print(x0);
    Serial.print(",");
    Serial.print(y0);
    Serial.println(")");
  }

  //  Delay before any next lines are submitted
  delay(LineDelay);
  //  Update the positions
  Xpos = x1;
  Ypos = y1;
}

//  Raises pen
void penUp() {
  penServo.write(penZUp);
  delay(LineDelay);
  Zpos=Zmax;
  if (verbose) {
    Serial.println("Pen up!");
  }
}
//  Lowers pen
void penDown() {
  penServo.write(penZDown);
  delay(LineDelay);
  Zpos=Zmin;
  if (verbose) {
    Serial.println("Pen down.");
  }
}
	#include <Servo.h>
	#include <Stepper.h>

	#define LINE_BUFFER_LENGTH 512

	// Servo position for Up and Down
	const int penZUp = 80;
	const int penZDown = 40;

	// Servo on PWM pin 6
	const int penServoPin = 6;

	// Should be right for DVD steppers, but is not too important here
	const int stepsPerRevolution = 20;

	// create servo object to control a servo
	Servo penServo;

	// Initialize steppers for X- and Y-axis using this Arduino pins for the L293D H-bridge
	Stepper myStepperY(stepsPerRevolution, 2,3,4,5);
	Stepper myStepperX(stepsPerRevolution, 8,9,10,11);

	/* Structures, global variables */
	struct point {
	float x;
	float y;
	float z;
	};

	// Current position of plothead
	struct point actuatorPos;

	// Drawing settings, should be OK
	float StepInc = 1;
	int StepDelay = 0;
	int LineDelay = 50;
	int penDelay = 50;

	// Motor steps to go 1 millimeter.
	// Use test sketch to go 100 steps. Measure the length of line.
	// Calculate steps per mm. Enter here.
	float StepsPerMillimeterX = 6.0;
	float StepsPerMillimeterY = 6.0;

	// Drawing robot limits, in mm
	// OK to start with. Could go up to 50 mm if calibrated well.
	float Xmin = 0;
	float Xmax = 40;
	float Ymin = 0;
	float Ymax = 40;
	float Zmin = 0;
	float Zmax = 1;

	float Xpos = Xmin;
	float Ypos = Ymin;
	float Zpos = Zmax;

	// Set to true to get debug output.
	boolean verbose = false;

	// Needs to interpret
	// G1 for moving
	// G4 P300 (wait 150ms)
	// M300 S30 (pen down)
	// M300 S50 (pen up)
	// Discard anything with a (
	// Discard any other command!

	/**********************
	* void setup() - Initialisations
	***********************/
	void setup() {
	// Setup
	Serial.begin( 9600 );

	penServo.attach(penServoPin);
	penServo.write(penZUp);
	delay(200);

	// Decrease if necessary
	myStepperX.setSpeed(250);
	myStepperY.setSpeed(250);

	// Set & move to initial default position
	// TBD

	// Notifications!!!
	Serial.println("Mini CNC Plotter alive and kicking!");
	Serial.print("X range is from ");
	Serial.print(Xmin);
	Serial.print(" to ");
	Serial.print(Xmax);
	Serial.println(" mm.");
	Serial.print("Y range is from ");
	Serial.print(Ymin);
	Serial.print(" to ");
	Serial.print(Ymax);
	Serial.println(" mm.");
	}

	/**********************
	* void loop() - Main loop
	***********************/
	void loop()
	{
	delay(200);
	char line[ LINE_BUFFER_LENGTH ];
	char c;
	int lineIndex;
	bool lineIsComment, lineSemiColon;

	lineIndex = 0;
	lineSemiColon = false;
	lineIsComment = false;

	while (1) {

	// Serial reception - Mostly from Grbl, added semicolon support
	while ( Serial.available()>0 ) {
	c = Serial.read();
	if (( c == '\n') \|\| (c == '\r') ) { // End of line reached
	if ( lineIndex > 0 ) { // Line is complete. Then execute!
	line[ lineIndex ] = '\0'; // Terminate string
	if (verbose) {
	Serial.print( "Received : ");
	Serial.println( line );
	}
	processIncomingLine( line, lineIndex );
	lineIndex = 0;
	}
	else {
	// Empty or comment line. Skip block.
	}
	lineIsComment = false;
	lineSemiColon = false;
	Serial.println("ok");
	}
	else {
	if ( (lineIsComment) \|\| (lineSemiColon) ) { // Throw away all comment characters
	if ( c == ')' ) lineIsComment = false; // End of comment. Resume line.
	}
	else {
	if ( c <= ' ' ) { // Throw away whitepace and control characters
	}
	else if ( c == '/' ) { // Block delete not supported. Ignore character.
	}
	else if ( c == '(' ) { // Enable comments flag and ignore all characters until ')' or EOL.
	lineIsComment = true;
	}
	else if ( c == ';' ) {
	lineSemiColon = true;
	}
	else if ( lineIndex >= LINE_BUFFER_LENGTH-1 ) {
	Serial.println( "ERROR - lineBuffer overflow" );
	lineIsComment = false;
	lineSemiColon = false;
	}
	else if ( c >= 'a' && c <= 'z' ) { // Upcase lowercase
	line[ lineIndex++ ] = c-'a'+'A';
	}
	else {
	line[ lineIndex++ ] = c;
	}
	}
	}
	}
	}
	}

	void processIncomingLine( char* line, int charNB ) {
	int currentIndex = 0;
	char buffer[ 64 ]; // Hope that 64 is enough for 1 parameter
	struct point newPos;

	newPos.x = 0.0;
	newPos.y = 0.0;

	// Needs to interpret
	// G1 for moving
	// G4 P300 (wait 150ms)
	// G1 X60 Y30
	// G1 X30 Y50
	// M300 S30 (pen down)
	// M300 S50 (pen up)
	// Discard anything with a (
	// Discard any other command!

	while( currentIndex < charNB ) {
	switch ( line[ currentIndex++ ] ) { // Select command, if any
	case 'U':
	penUp();
	break;
	case 'D':
	penDown();
	break;
	case 'G':
	buffer[0] = line[ currentIndex++ ]; // /!\ Dirty - Only works with 2 digit commands
	// buffer[1] = line[ currentIndex++ ];
	// buffer[2] = '\0';
	buffer[1] = '\0';

	switch ( atoi( buffer ) ){ // Select G command
	case 0: // G00 & G01 - Movement or fast movement. Same here
	case 1:
	// /!\ Dirty - Suppose that X is before Y
	char* indexX = strchr( line+currentIndex, 'X' ); // Get X/Y position in the string (if any)
	char* indexY = strchr( line+currentIndex, 'Y' );
	if ( indexY <= 0 ) {
	newPos.x = atof( indexX + 1);
	newPos.y = actuatorPos.y;
	}
	else if ( indexX <= 0 ) {
	newPos.y = atof( indexY + 1);
	newPos.x = actuatorPos.x;
	}
	else {
	newPos.y = atof( indexY + 1);
	indexY = '\0';
	newPos.x = atof( indexX + 1);
	}
	drawLine(newPos.x, newPos.y );
	// Serial.println("ok");
	actuatorPos.x = newPos.x;
	actuatorPos.y = newPos.y;
	break;
	}
	break;
	case 'M':
	buffer[0] = line[ currentIndex++ ]; // /!\ Dirty - Only works with 3 digit commands
	buffer[1] = line[ currentIndex++ ];
	buffer[2] = line[ currentIndex++ ];
	buffer[3] = '\0';
	switch ( atoi( buffer ) ){
	case 300:
	{
	char* indexS = strchr( line+currentIndex, 'S' );
	float Spos = atof( indexS + 1);
	// Serial.println("ok");
	if (Spos == 30) {
	penDown();
	}
	if (Spos == 50) {
	penUp();
	}
	break;
	}
	case 114: // M114 - Repport position
	Serial.print( "Absolute position : X = " );
	Serial.print( actuatorPos.x );
	Serial.print( " - Y = " );
	Serial.println( actuatorPos.y );
	break;
	default:
	Serial.print( "Command not recognized : M");
	Serial.println( buffer );
	}
	}
	}



	}


	/*********************************
	* Draw a line from (x0;y0) to (x1;y1).
	* Bresenham algo from https://www.marginallyclever.com/blog/2013/08/how-to-build-an-2-axis-arduino-cnc-gcode-interpreter/
	* int (x1;y1) : Starting coordinates
	* int (x2;y2) : Ending coordinates
	**********************************/
	void drawLine(float x1, float y1) {

	if (verbose)
	{
	Serial.print("fx1, fy1: ");
	Serial.print(x1);
	Serial.print(",");
	Serial.print(y1);
	Serial.println("");
	}

	// Bring instructions within limits
	if (x1 >= Xmax) {
	x1 = Xmax;
	}
	if (x1 <= Xmin) {
	x1 = Xmin;
	}
	if (y1 >= Ymax) {
	y1 = Ymax;
	}
	if (y1 <= Ymin) {
	y1 = Ymin;
	}

	if (verbose)
	{
	Serial.print("Xpos, Ypos: ");
	Serial.print(Xpos);
	Serial.print(",");
	Serial.print(Ypos);
	Serial.println("");
	}

	if (verbose)
	{
	Serial.print("x1, y1: ");
	Serial.print(x1);
	Serial.print(",");
	Serial.print(y1);
	Serial.println("");
	}

	// Convert coordinates to steps
	x1 = (int)(x1*StepsPerMillimeterX);
	y1 = (int)(y1*StepsPerMillimeterY);
	float x0 = Xpos;
	float y0 = Ypos;

	// Let's find out the change for the coordinates
	long dx = abs(x1-x0);
	long dy = abs(y1-y0);
	int sx = x0<x1 ? StepInc : -StepInc;
	int sy = y0<y1 ? StepInc : -StepInc;

	long i;
	long over = 0;

	if (dx > dy) {
	for (i=0; i<dx; ++i) {
	myStepperX.step(sx);
	over+=dy;
	if (over>=dx) {
	over-=dx;
	myStepperY.step(sy);
	}
	delay(StepDelay);
	}
	}
	else {
	for (i=0; i<dy; ++i) {
	myStepperY.step(sy);
	over+=dx;
	if (over>=dy) {
	over-=dy;
	myStepperX.step(sx);
	}
	delay(StepDelay);
	}
	}

	if (verbose)
	{
	Serial.print("dx, dy:");
	Serial.print(dx);
	Serial.print(",");
	Serial.print(dy);
	Serial.println("");
	}

	if (verbose)
	{
	Serial.print("Going to (");
	Serial.print(x0);
	Serial.print(",");
	Serial.print(y0);
	Serial.println(")");
	}

	// Delay before any next lines are submitted
	delay(LineDelay);
	// Update the positions
	Xpos = x1;
	Ypos = y1;
	}

	// Raises pen
	void penUp() {
	penServo.write(penZUp);
	delay(LineDelay);
	Zpos=Zmax;
	if (verbose) {
	Serial.println("Pen up!");
	}
	}
	// Lowers pen
	void penDown() {
	penServo.write(penZDown);
	delay(LineDelay);
	Zpos=Zmin;
	if (verbose) {
	Serial.println("Pen down.");
	}
	}