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|
/*
Sanguino3GDriver.java
This is a driver to control a machine that uses the Sanguino with 3rd Generation Electronics.
Part of the ReplicatorG project - http://www.replicat.org
Copyright (c) 2008 Zach Smith
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software Foundation,
Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
import java.io.IOException;
import java.text.DecimalFormat;
import java.util.Date;
import java.util.LinkedList;
import java.util.Queue;
import java.util.Vector;
import javax.vecmath.Point3d;
import processing.serial.*;
public class Sanguino3GDriver
{
/**
* An enumeration of the available command codes for the three-axis
* CNC stage.
*/
class CommandCodesMaster {
public final static int GET_VERSION = 0;
public final static int INIT = 1;
public final static int GET_AVAIL_BUF = 2;
public final static int CLEAR_BUF = 3;
public final static int GET_POS = 4;
public final static int GET_RANGE = 5;
public final static int SET_RANGE = 6;
public final static int ABORT = 7;
public final static int PAUSE = 8;
public final static int PROBE = 9;
public final static int TOOL_QUERY = 10;
public final static int QUEUE_POINT_INC = 128;
public final static int QUEUE_POINT_ABS = 129;
public final static int SET_POS = 130;
public final static int FIND_MINS = 131;
public final static int FIND_MAXS = 132;
public final static int DELAY = 133;
public final static int CHANGE_TOOL = 134;
public final static int WAIT_FOR_TOOL = 135;
public final static int TOOL_COMMAND = 136;
};
/**
* An enumeration of the available command codes for a tool.
*/
class CommandCodesSlave {
public final static int GET_VERSION = 0;
public final static int INIT = 1;
public final static int GET_TEMPERATURE = 2;
public final static int SET_TEMPERATURE = 3;
public final static int SET_MOTOR_1_PWM = 4;
public final static int SET_MOTOR_2_PWM = 5;
public final static int SET_MOTOR_1_RPM = 6;
public final static int SET_MOTOR_2_RPM = 7;
public final static int SET_MOTOR_1_DIR = 8;
public final static int SET_MOTOR_2_DIR = 9;
public final static int TOGGLE_MOTOR_1 = 10;
public final static int TOGGLE_MOTOR_2 = 11;
public final static int TOGGLE_FAN = 12;
public final static int TOGGLE_VALVE = 13;
public final static int SET_SERVO_1_POS = 14;
public final static int SET_SERVO_2_POS = 15;
public final static int FILAMENT_STATUS = 16;
public final static int GET_MOTOR_1_RPM = 17;
public final static int GET_MOTOR_2_RPM = 18;
public final static int GET_MOTOR_1_PWM = 19;
public final static int GET_MOTOR_2_PWM = 20;
public final static int ABORT = 21;
public final static int PAUSE = 22;
};
/** The start byte that opens every packet. */
private final byte START_BYTE = (byte)0xD5;
/** The response codes at the start of every response packet. */
class ResponseCode {
final static int GENERIC_ERROR = 0;
final static int OK = 1;
final static int BUFFER_OVERFLOW = 2;
final static int CRC_MISMATCH = 3;
final static int QUERY_OVERFLOW = 4;
final static int UNSUPPORTED = 5;
};
/**
* An object representing the serial connection.
*/
public Serial serial;
/**
* Serial connection parameters
**/
String name;
int rate;
char parity;
int databits;
float stopbits;
private int debugLevel = 2;
private boolean isInitialized = false;
/**
* This is a Java implementation of the IButton/Maxim 8-bit CRC.
* Code ported from the AVR-libc implementation, which is used
* on the RR3G end.
*/
protected class IButtonCrc {
private int crc = 0;
/**
* Construct a new, initialized object for keeping track of a CRC.
*/
public IButtonCrc() {
crc = 0;
}
/**
* Update the CRC with a new byte of sequential data.
* See include/util/crc16.h in the avr-libc project for a
* full explanation of the algorithm.
* @param data a byte of new data to be added to the crc.
*/
public void update(byte data) {
crc = (crc ^ data)&0xff; // i loathe java's promotion rules
for (int i=0; i<8; i++) {
if ((crc & 0x01) != 0) {
crc = ((crc >>> 1) ^ 0x8c)&0xff;
} else {
crc = (crc >>> 1)&0xff;
}
}
}
/**
* Get the 8-bit crc value.
*/
public byte getCrc() {
return (byte)crc;
}
/**
* Reset the crc.
*/
public void reset() {
crc = 0;
}
}
/**
* A class for building a new packet to send down the wire to the
* Sanguino3G.
*/
class PacketBuilder {
// yay magic numbers.
byte[] data = new byte[256];
// current end of packet. Bytes 0 and 1 are reserved for start byte
// and packet payload length.
int idx = 2;
IButtonCrc crc = new IButtonCrc();
/**
* Start building a new command packet.
* @param target the target identifier for this packet.
* @param command the command identifier for this packet.
*/
PacketBuilder(int command)
{
idx = 2;
data[0] = START_BYTE;
//data[1] = length; // just to avoid confusion
add8((byte)command);
}
/**
* Add an 8-bit value to the end of the packet payload.
* @param v the value to append.
*/
void add8( int v ) {
data[idx++] = (byte)v;
crc.update((byte)v);
}
/**
* Add a 16-bit value to the end of the packet payload.
* @param v the value to append.
*/
void add16( int v ) {
add8((byte)(v & 0xff));
add8((byte)((v >> 8) & 0xff));
}
/**
* Add a 32-bit value to the end of the packet payload.
* @param v the value to append. Must be long to support unsigned ints.
*/
void add32( long v ) {
add16((int)(v & 0xffff));
add16((int)((v >> 16) & 0xffff));
}
/**
* Complete the packet.
* @return a byte array representing the completed packet.
*/
byte[] getPacket() {
data[idx] = crc.getCrc();
data[1] = (byte)(idx-2); // len does not count packet header
byte[] rv = new byte[idx+1];
System.arraycopy(data,0,rv,0,idx+1);
return rv;
}
};
/**
* A class for keeping track of the state of an incoming packet and
* storing its payload.
*/
class PacketProcessor {
final static byte PS_START = 0;
final static byte PS_LEN = 1;
final static byte PS_PAYLOAD = 2;
final static byte PS_CRC = 3;
final static byte PS_LAST = 4;
byte packetState = PS_START;
int payloadLength = -1;
int payloadIdx = 0;
byte[] payload;
byte targetCrc = 0;
IButtonCrc crc;
/**
* Reset the packet's state. (The crc is (re-)generated on the length byte
* and thus doesn't need to be reset.(
*/
public void reset() {
packetState = PS_START;
}
/**
* Create a PacketResponse object that contains this packet's payload.
* @return A valid PacketResponse object
*/
public PacketResponse getResponse()
{
PacketResponse pr = new PacketResponse(payload);
if (debugLevel >= 2)
pr.printDebug();
return pr;
}
/**
* Process the next byte in an incoming packet.
* @return true if the packet is complete and valid; false otherwise.
*/
public boolean processByte(byte b)
{
if (debugLevel >= 2) {
System.out.print(Integer.toHexString((int)b&0xff) + " ");
}
switch (packetState) {
case PS_START:
if (debugLevel >= 3)
System.out.println("Start byte?");
if (b == START_BYTE) {
packetState = PS_LEN;
} else {
// throw exception?
}
break;
case PS_LEN:
if (debugLevel >= 3)
System.out.println("Length: " + (int)b);
payloadLength = ((int)b) & 0xFF;
payload = new byte[payloadLength];
crc = new IButtonCrc();
packetState = PS_PAYLOAD;
break;
case PS_PAYLOAD:
if (debugLevel >= 3)
System.out.println("payload.");
// sanity check
if (payloadIdx < payloadLength) {
payload[payloadIdx++] = b;
crc.update(b);
}
if (payloadIdx >= payloadLength) {
packetState = PS_CRC;
}
break;
case PS_CRC:
targetCrc = b;
if (debugLevel >= 3) {
System.out.println("Target CRC: " + Integer.toHexString( (int)targetCrc&0xff ) +
" - expected CRC: " + Integer.toHexString( (int)crc.getCrc()&0xff ));
}
if (crc.getCrc() != targetCrc) {
throw new java.lang.RuntimeException("CRC mismatch on reply");
}
return true;
}
return false;
}
}
/**
* Packet response wrapper, with convenience functions for
* reading off values in sequence and retrieving the response
* code.
*/
class PacketResponse {
byte[] payload;
int readPoint = 1;
public PacketResponse(byte[] p) {
payload = p;
}
/**
* Prints a debug message with the packet response code decoded, along wiith the
* packet's contents in hex.
*/
public void printDebug() {
String msg = "Unknown";
switch(payload[0]) {
case ResponseCode.GENERIC_ERROR:
msg = "Generic Error";
break;
case ResponseCode.OK:
msg = "OK";
break;
case ResponseCode.BUFFER_OVERFLOW:
msg = "Buffer overflow";
break;
case ResponseCode.CRC_MISMATCH:
msg = "CRC mismatch";
break;
case ResponseCode.QUERY_OVERFLOW:
msg = "Query overflow";
break;
case ResponseCode.UNSUPPORTED:
msg = "Unsupported command";
break;
}
System.out.println("Packet response code: " + msg);
System.out.print("Packet payload: ");
for (int i = 1; i < payload.length; i++) {
System.out.print(Integer.toHexString(payload[i]&0xff) + " ");
}
System.out.print("\n");
}
/**
* Retrieve the packet payload.
* @return an array of bytes representing the payload.
*/
public byte[] getPayload() {
return payload;
}
/**
* Get the next 8-bit value from the packet payload.
*/
int get8() {
if (payload.length > readPoint)
return ((int)payload[readPoint++])&0xff;
else
{
System.out.println("Error: payload not big enough.");
return 0;
}
}
/**
* Get the next 16-bit value from the packet payload.
*/
int get16() {
return get8() + (get8()<<8);
}
/**
* Get the next 32-bit value from the packet payload.
*/
int get32() {
return get16() + (get16()<<16);
}
/**
* Does the response code indicate that the command was successful?
*/
public boolean isOK() {
return payload[0] == ResponseCode.OK;
}
};
public Sanguino3GDriver()
{
}
public void setInitialized(boolean status)
{
isInitialized = status;
}
public boolean isInitialized()
{
return isInitialized;
}
public void initialize(PApplet parent)
{
// List all the available serial ports
println(Serial.list());
//open the first port...
this.serial = new Serial(parent, Serial.list()[0], 38400);
//wait till we're initialized
if (!isInitialized()) {
// attempt to send version command and retrieve reply.
try {
//read our string that means we're started up.
waitForStartup();
//okay, take care of version info /etc.
getVersion(2);
sendInit();
setInitialized(true);
System.out.println("Ready to rock.");
} catch (Exception e) {
//todo: handle init exceptions here
System.out.println("yarg! " + e.getMessage());
}
}
}
protected void waitForStartup()
{
assert (serial != null);
synchronized(serial) {
String cmd = "";
byte[] responsebuffer = new byte[512];
String result = "";
while (!isInitialized()) {
try {
int numread = serial.input.read(responsebuffer);
assert (numread != 0); // This should never happen since we know we have a buffer
if (numread < 0) {
// This signifies EOF. FIXME: How do we handle this?
System.out.println("RepRap3GDriver.readResponse(): EOF occured");
return;
}
else {
result += new String(responsebuffer , 0, numread, "US-ASCII");
int index;
while ((index = result.indexOf('\n')) >= 0) {
String line = result.substring(0, index).trim(); // trim to remove any trailing \r
result = result.substring(index+1);
if (line.length() == 0) continue;
//old arduino firmware sends "start"
if (line.startsWith("R3G Master v")) {
//todo: set version
setInitialized(true);
System.out.println(line);
}
}
}
}
catch (IOException e) {
System.out.println("inputstream.read() failed: " + e.toString());
// FIXME: Shut down communication somehow.
}
}
}
}
/**
* Sends the command over the serial connection and retrieves a result.
*/
protected PacketResponse runCommand(byte[] packet)
{
assert (serial != null);
if (packet == null || packet.length < 4)
return null; // skip empty commands or broken commands
boolean checkQueue = false;
if (packet[2] == 0x0 && (packet[3]&0x80) != 0x0) {
checkQueue = true;
}
synchronized(serial) {
//do the actual send.
serial.write(packet);
}
if (debugLevel >= 2) {
System.out.print("OUT: ");
for (int i =0; i<packet.length;i++)
{
System.out.print(Integer.toHexString((int)packet[i] & 0xff ));
System.out.print(" ");
}
System.out.print("\n");
}
PacketProcessor pp = new PacketProcessor();
try {
boolean c = false;
System.out.print("IN: ");
while (!c) {
int b = serial.input.read();
c = pp.processByte((byte)b);
System.out.flush();
}
System.out.println();
} catch (java.io.IOException ioe) {
System.out.println(ioe.toString());
}
return pp.getResponse();
}
public boolean isFinished()
{
// todo agm
return true;
}
/****************************************************
* commands used internally to driver
****************************************************/
public int getVersion(int ourVersion)
{
PacketBuilder pb = new PacketBuilder(CommandCodesMaster.GET_VERSION);
pb.add16(ourVersion);
PacketResponse pr = runCommand(pb.getPacket());
int version = pr.get16();
System.out.println("Reported version: " + Integer.toHexString(version));
return version;
}
public void sendInit()
{
PacketBuilder pb = new PacketBuilder(CommandCodesMaster.INIT);
PacketResponse pr = runCommand(pb.getPacket());
}
/****************************************************
* commands for interfacing with the driver directly
****************************************************/
public void queueDelta(Point3d delta)
{
if (debugLevel >= 1)
System.out.println("Queued point " + delta);
//sendCommand(cmd);
PacketBuilder pb = new PacketBuilder(CommandCodesMaster.QUEUE_POINT_INC);
//figure out our feedrate variables.
long ticks = convertDeltaToTicks(delta, feedrate);
Point3d steps = getDeltaSteps(delta);
//figure out the axis with the most steps.
int max = Math.max((int)steps.x, (int)steps.y);
max = Math.max(max, (int)steps.z);
//get the ratio of steps to take each segment
double xRatio = steps.x / max;
double yRatio = steps.y / max;
double zRatio = steps.z / max;
//how many segments will there be?
int segmentCount = (int)Math.ceil(max / 32767.0);
//within our range? just do it.
if (segmentCount == 1) {
queueIncrementalPoint(pb, steps, ticks);
}
else {
for (int i=0; i<segmentCount; i++) {
Point3d segmentSteps = new Point3d();
//TODO: is this accurate?
//calculate our line segments
segmentSteps.x = Math.round(32767 * xRatio);
segmentSteps.y = Math.round(32767 * yRatio);
segmentSteps.z = Math.round(32767 * zRatio);
//keep track of them.
steps.x -= segmentSteps.x;
steps.y -= segmentSteps.y;
steps.z -= segmentSteps.z;
//send this segment
queueIncrementalPoint(pb, segmentSteps, ticks);
}
}
}
private void queueIncrementalPoint(PacketBuilder pb, Point3d steps, long ticks)
{
//figure out our timer values.
byte prescaler = convertTicksToPrescaler(ticks);
int counter = convertTicksToCounter(ticks);
if (debugLevel >= 1)
System.out.println("Queued incremental point " + steps + " at " + counter + "/" + prescaler + " (" + ticks + ")");
//just add them in now.
pb.add16((int)steps.x);
pb.add16((int)steps.y);
pb.add16((int)steps.z);
pb.add8(prescaler);
pb.add16(counter);
PacketResponse pr = runCommand(pb.getPacket());
}
// public void setCurrentPosition(Point3d p)
// {
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.SET_POS);
// Point3d steps = machine.mmToSteps(p);
// pb.add32((long)steps.x);
// pb.add32((long)steps.y);
// pb.add32((long)steps.z);
// if (debugLevel >= 1)
// System.out.println("Set current position to " + p + " (" + steps + ")");
// PacketResponse pr = runCommand(pb.getPacket());
// }
public void homeXYZ()
{
if (debugLevel >= 1)
System.out.println("Home XYZ");
homeAxes(true, true, true);
}
public void homeXY()
{
if (debugLevel >= 1)
System.out.println("Home XY");
homeAxes(true, true, false);
}
public void homeX()
{
if (debugLevel >= 1)
System.out.println("Home X");
homeAxes(true, false, false);
}
public void homeY()
{
if (debugLevel >= 1)
System.out.println("Home Y");
homeAxes(false, true, false);
}
public void homeZ()
{
if (debugLevel >= 1)
System.out.println("Home Z");
homeAxes(false, false, false);
}
private void homeAxes(boolean x, boolean y, boolean z)
{
byte flags = 0x00;
//figure out our fastest feedrate.
Point3d maxFeedrates = new Point3d(200,200,200); //FIXME: real feedrate
double feedrate = Math.max(maxFeedrates.x, maxFeedrates.y);
feedrate = Math.max(maxFeedrates.z, feedrate);
Point3d target = new Point3d();
if (x)
{
flags += 1;
feedrate = Math.min(feedrate, maxFeedrates.x);
target.x = 1; //just to give us feedrate info.
}
if (y)
{
flags += 2;
feedrate = Math.min(feedrate, maxFeedrates.y);
target.y = 1; //just to give us feedrate info.
}
if (z)
{
flags += 4;
feedrate = Math.min(feedrate, maxFeedrates.z);
target.z = 1; //just to give us feedrate info.
}
//calculate ticks
long ticks = convertDeltaToTicks(target, feedrate);
//calculate prescaler/counter values
byte prescaler = convertTicksToPrescaler(ticks);
int counter = convertTicksToCounter(ticks);
if (debugLevel >= 2)
System.out.println("Homing w/ flags " + Integer.toBinaryString(flags) + " at " + counter + "/" + prescaler);
//send it!
PacketBuilder pb = new PacketBuilder(CommandCodesMaster.FIND_MINS);
pb.add8(prescaler);
pb.add16(counter);
pb.add16(300); //default to 5 minutes
pb.add8(flags);
PacketResponse pr = runCommand(pb.getPacket());
}
public void delay(long millis)
{
if (debugLevel >= 1)
System.out.println("Delaying " + millis + " millis.");
//send it!
PacketBuilder pb = new PacketBuilder(CommandCodesMaster.DELAY);
pb.add32(millis);
PacketResponse pr = runCommand(pb.getPacket());
}
public void openClamp(int clampIndex)
{
//TODO: throw some sort of unsupported exception.
}
public void closeClamp(int clampIndex)
{
//TODO: throw some sort of unsupported exception.
}
public void enableDrives()
{
//TODO: throw some sort of unsupported exception.
}
public void disableDrives()
{
//TODO: throw some sort of unsupported exception.
}
public void changeGearRatio(int ratioIndex)
{
//TODO: throw some sort of unsupported exception.
}
public void selectTool(int toolIndex)
{
if (debugLevel >= 1)
System.out.println("Selecting tool #" + toolIndex);
//send it!
PacketBuilder pb = new PacketBuilder(CommandCodesMaster.CHANGE_TOOL);
pb.add8((byte)toolIndex);
PacketResponse pr = runCommand(pb.getPacket());
}
/*************************************
* Motor interface functions
*************************************/
public void setMotorRPM(double rpm)
{
//convert RPM into microseconds and then send.
long microseconds = (int)Math.round(60 * 1000000 / rpm); //no unsigned ints?!?
microseconds = Math.min(microseconds, 2^32-1); // limit to uint32.
if (debugLevel >= 1)
System.out.println("Setting motor 1 speed to " + rpm + " RPM (" + microseconds + " microseconds)");
//send it!
PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
pb.add8((byte)1);
pb.add8(CommandCodesSlave.SET_MOTOR_1_RPM);
pb.add8((byte)4); //length of payload.
pb.add32(microseconds);
PacketResponse pr = runCommand(pb.getPacket());
}
public void setMotorSpeedPWM(int pwm)
{
if (debugLevel >= 1)
System.out.println("Setting motor 1 speed to " + pwm + " PWM");
//send it!
PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
pb.add8((byte)1);
pb.add8(CommandCodesSlave.SET_MOTOR_1_PWM);
pb.add8((byte)1); //length of payload.
pb.add8((byte)pwm);
PacketResponse pr = runCommand(pb.getPacket());
}
// public void enableMotor()
// {
// //our flag variable starts with motors enabled.
// byte flags = 1;
// //bit 1 determines direction...
// if (machine.currentTool().getMotorDirection() == ToolModel.MOTOR_CLOCKWISE)
// flags += 2;
// if (debugLevel >= 1)
// System.out.println("Toggling motor 1 w/ flags: " + Integer.toBinaryString(flags));
// //send it!
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.TOGGLE_MOTOR_1);
// pb.add8((byte)1); //payload length
// pb.add8(flags);
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public void disableMotor()
// {
// //bit 1 determines direction...
// byte flags = 0;
// if (machine.currentTool().getSpindleDirection() == ToolModel.MOTOR_CLOCKWISE)
// flags += 2;
// if (debugLevel >= 1)
// System.out.println("Disabling motor 1");
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.TOGGLE_MOTOR_1);
// pb.add8((byte)1); //payload length
// pb.add8(flags);
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public int getMotorSpeedPWM()
// {
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_QUERY);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.GET_MOTOR_1_PWM);
// PacketResponse pr = runCommand(pb.getPacket());
// //get it
// int pwm = pr.get8();
// if (debugLevel >= 1)
// System.out.println("Current motor 1 PWM: " + pwm);
// //set it.
// machine.currentTool().setMotorSpeedReadingPWM(pwm);
// return pwm;
// }
// public double getMotorSpeedRPM()
// {
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_QUERY);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.GET_MOTOR_1_RPM);
// PacketResponse pr = runCommand(pb.getPacket());
// //convert back to RPM
// long micros = pr.get32();
// double rpm = (60.0 * 1000000.0 / micros);
// if (debugLevel >= 1)
// System.out.println("Current motor 1 RPM: " + rpm + " (" + micros + ")");
// //set it.
// machine.currentTool().setMotorSpeedReadingRPM(rpm);
// return rpm;
// }
// /*************************************
// * Spindle interface functions
// *************************************/
// public void setSpindleRPM(double rpm)
// {
// //convert RPM into microseconds and then send.
// long microseconds = (int)Math.round(60 * 1000000 / rpm); //no unsigned ints?!?
// microseconds = Math.min(microseconds, 2^32-1); // limit to uint32.
// if (debugLevel >= 1)
// System.out.println("Setting motor 2 speed to " + rpm + " RPM (" + microseconds + " microseconds)");
// //send it!
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.SET_MOTOR_2_RPM);
// pb.add8((byte)4); //payload length
// pb.add32(microseconds);
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public void setSpindleSpeedPWM(int pwm)
// {
// if (debugLevel >= 1)
// System.out.println("Setting motor 2 speed to " + pwm + " PWM");
// //send it!
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.SET_MOTOR_2_PWM);
// pb.add8((byte)1); //length of payload.
// pb.add8((byte)pwm);
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public void enableSpindle()
// {
// //our flag variable starts with spindles enabled.
// byte flags = 1;
// //bit 1 determines direction...
// if (machine.currentTool().getSpindleDirection() == ToolModel.MOTOR_CLOCKWISE)
// flags += 2;
// if (debugLevel >= 1)
// System.out.println("Toggling motor 2 w/ flags: " + Integer.toBinaryString(flags));
// //send it!
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.TOGGLE_MOTOR_2);
// pb.add8((byte)1); //payload length
// pb.add8(flags);
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public void disableSpindle()
// {
// //bit 1 determines direction...
// byte flags = 0;
// if (machine.currentTool().getSpindleDirection() == ToolModel.MOTOR_CLOCKWISE)
// flags += 2;
// if (debugLevel >= 1)
// System.out.println("Disabling motor 2");
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.TOGGLE_MOTOR_1);
// pb.add8((byte)1); //payload length
// pb.add8(flags);
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public double getSpindleSpeedRPM()
// {
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_QUERY);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.GET_MOTOR_2_RPM);
// PacketResponse pr = runCommand(pb.getPacket());
// //convert back to RPM
// long micros = pr.get32();
// double rpm = (60.0 * 1000000.0 / micros);
// if (debugLevel >= 1)
// System.out.println("Current motor 2 RPM: " + rpm + " (" + micros + ")");
// //set it.
// machine.currentTool().setSpindleSpeedReadingRPM(rpm);
// return rpm;
// }
// public int getSpindleSpeedPWM()
// {
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_QUERY);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.GET_MOTOR_2_PWM);
// PacketResponse pr = runCommand(pb.getPacket());
// //get it
// int pwm = pr.get8();
// if (debugLevel >= 1)
// System.out.println("Current motor 1 PWM: " + pwm);
// //set it.
// machine.currentTool().setSpindleSpeedReadingPWM(pwm);
// return pwm;
// }
// /*************************************
// * Temperature interface functions
// *************************************/
// public void setTemperature(double temperature)
// {
// //constrain our temperature.
// int temp = (int)Math.round(temperature);
// temp = Math.min(temp, 65535);
// if (debugLevel >= 1)
// System.out.println("Setting temperature to " + temp + "C");
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.SET_TEMPERATURE);
// pb.add8((byte)2); //payload length
// pb.add16(temp);
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public void readTemperature()
// {
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_QUERY);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.GET_TEMPERATURE);
// PacketResponse pr = runCommand(pb.getPacket());
// int temp = pr.get16();
// machine.currentTool().setCurrentTemperature(temp);
// if (debugLevel >= 1)
// System.out.println("Current temperature: " + temp + "C");
// }
// /*************************************
// * Flood Coolant interface functions
// *************************************/
// public void enableFloodCoolant()
// {
// //TODO: throw unsupported exception
// }
// public void disableFloodCoolant()
// {
// //TODO: throw unsupported exception
// }
// /*************************************
// * Mist Coolant interface functions
// *************************************/
// public void enableMistCoolant()
// {
// //TODO: throw unsupported exception
// }
// public void disableMistCoolant()
// {
// //TODO: throw unsupported exception
// }
// /*************************************
// * Fan interface functions
// *************************************/
// public void enableFan()
// {
// if (debugLevel >= 1)
// System.out.println("Enabling fan");
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.TOGGLE_FAN);
// pb.add8((byte)1); //payload length
// pb.add8((byte)1); //enable
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public void disableFan()
// {
// if (debugLevel >= 1)
// System.out.println("Disabling fan");
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.TOGGLE_FAN);
// pb.add8((byte)1); //payload length
// pb.add8((byte)0); //disable
// PacketResponse pr = runCommand(pb.getPacket());
// }
// /*************************************
// * Valve interface functions
// *************************************/
// public void openValve()
// {
// if (debugLevel >= 1)
// System.out.println("Opening valve");
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.TOGGLE_VALVE);
// pb.add8((byte)1); //payload length
// pb.add8((byte)1); //enable
// PacketResponse pr = runCommand(pb.getPacket());
// }
// public void closeValve()
// {
// if (debugLevel >= 1)
// System.out.println("Closing valve");
// PacketBuilder pb = new PacketBuilder(CommandCodesMaster.TOOL_COMMAND);
// pb.add8((byte)machine.currentTool().getIndex());
// pb.add8(CommandCodesSlave.TOGGLE_VALVE);
// pb.add8((byte)1); //payload length
// pb.add8((byte)0); //disable
// PacketResponse pr = runCommand(pb.getPacket());
// }
// /*************************************
// * Collet interface functions
// *************************************/
// public void openCollet()
// {
// //TODO: throw unsupported exception.
// }
// public void closeCollet()
// {
// //TODO: throw unsupported exception.
// }
/*************************************
* Various timer and math functions.
*************************************/
private Point3d getDeltaSteps(Point3d delta)
{
//calculate our deltas.
delta.x = Math.abs(delta.x);
delta.y = Math.abs(delta.y);
delta.z = Math.abs(delta.z);
return mmToSteps(delta);
}
private Point3d stepsPerMM = new Point3d(200,200,200);
public Point3d mmToSteps(Point3d mm)
{
Point3d temp = new Point3d();
temp.x = Math.round(mm.x * stepsPerMM.x);
temp.y = Math.round(mm.y * stepsPerMM.y);
temp.z = Math.round(mm.z * stepsPerMM.z);
return temp;
}
private long convertDeltaToTicks(Point3d delta, double feedrate)
{
Point3d deltaSteps = getDeltaSteps(delta);
//how long is our line length?
double distance = Math.sqrt(deltaSteps.x * deltaSteps.x +
deltaSteps.y * deltaSteps.y +
deltaSteps.z * deltaSteps.z);
long master_steps = 0;
//find the dominant axis.
if (deltaSteps.x > deltaSteps.y) {
if (deltaSteps.z > deltaSteps.x)
master_steps = (long)deltaSteps.z;
else
master_steps = (long)deltaSteps.x;
}
else {
if (deltaSteps.z > deltaSteps.y)
master_steps = (long)deltaSteps.z;
else
master_steps = (long)deltaSteps.y;
}
//calculate delay between steps in ticks. this is sort of tricky, but not too bad.
// 960,000,000 = number of ticks in a second at 16Mhz, the speed of an Arduino/Sanguino.
//the formula has been condensed to save space. here it is in english:
// (feedrate is in mm/minute)
// distance / feedrate * 960,000,000.0 = move duration in ticks
// move duration / master_steps = time between steps for master axis.
return (long)Math.floor(((distance * 960000000.0) / feedrate) / master_steps);
}
private byte convertTicksToPrescaler(long ticks)
{
// these also represent frequency: 1000000 / ticks / 2 = frequency in hz.
// our slowest speed at our highest resolution ( (2^16-1) * 0.0625 usecs = 4095 usecs (4 millisecond max))
// range: 8Mhz max - 122hz min
if (ticks <= 65535L)
return 1;
// our slowest speed at our next highest resolution ( (2^16-1) * 0.5 usecs = 32767 usecs (32 millisecond max))
// range:1Mhz max - 15.26hz min
else if (ticks <= 524280L)
return 2;
// our slowest speed at our medium resolution ( (2^16-1) * 4 usecs = 262140 usecs (0.26 seconds max))
// range: 125Khz max - 1.9hz min
else if (ticks <= 4194240L)
return 3;
// our slowest speed at our medium-low resolution ( (2^16-1) * 16 usecs = 1048560 usecs (1.04 seconds max))
// range: 31.25Khz max - 0.475hz min
else if (ticks <= 16776960L)
return 4;
// our slowest speed at our lowest resolution ((2^16-1) * 64 usecs = 4194240 usecs (4.19 seconds max))
// range: 7.812Khz max - 0.119hz min
else if (ticks <= 67107840L)
return 5;
//its really slow... hopefully we can just get by with super slow.
else
return 5;
}
private int convertTicksToCounter(long ticks)
{
// our slowest speed at our highest resolution ( (2^16-1) * 0.0625 usecs = 4095 usecs)
if (ticks <= 65535)
return ((int)(ticks & 0xffff));
// our slowest speed at our next highest resolution ( (2^16-1) * 0.5 usecs = 32767 usecs)
else if (ticks <= 524280)
return ((int)((ticks / 8) & 0xffff));
// our slowest speed at our medium resolution ( (2^16-1) * 4 usecs = 262140 usecs)
else if (ticks <= 4194240)
return ((int)((ticks / 64) & 0xffff));
// our slowest speed at our medium-low resolution ( (2^16-1) * 16 usecs = 1048560 usecs)
else if (ticks <= 16776960)
return ((int)(ticks / 256));
// our slowest speed at our lowest resolution ((2^16-1) * 64 usecs = 4194240 usecs)
else if (ticks <= 67107840)
return ((int)(ticks / 1024));
//its really slow... hopefully we can just get by with super slow.
else
return 65535;
}
}
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