roboclaw_3.py

#!/usr/bin/env python

import random

import rospy
import serial
import struct
import time


class Roboclaw:
    'Roboclaw Interface Class'

    def __init__(self, comport, rate, timeout=0.01, retries=3):
        self.comport = comport
        self.rate = rate
        self.timeout = timeout
        self._trystimeout = retries
        self._crc = 0
        for i in range(10):
            try:
                self._port = serial.Serial(port=self.comport, baudrate=self.rate, timeout=1, interCharTimeout=self.timeout)
                break
            except:
                rospy.logwarn("_port initialisation not working")

    # Command Enums
    class Cmd():
        M1FORWARD = 0
        M1BACKWARD = 1
        SETMINMB = 2
        SETMAXMB = 3
        M2FORWARD = 4
        M2BACKWARD = 5
        M17BIT = 6
        M27BIT = 7
        MIXEDFORWARD = 8
        MIXEDBACKWARD = 9
        MIXEDRIGHT = 10
        MIXEDLEFT = 11
        MIXEDFB = 12
        MIXEDLR = 13
        GETM1ENC = 16
        GETM2ENC = 17
        GETM1SPEED = 18
        GETM2SPEED = 19
        RESETENC = 20
        GETVERSION = 21
        SETM1ENCCOUNT = 22
        SETM2ENCCOUNT = 23
        GETMBATT = 24
        GETLBATT = 25
        SETMINLB = 26
        SETMAXLB = 27
        SETM1PID = 28
        SETM2PID = 29
        GETM1ISPEED = 30
        GETM2ISPEED = 31
        M1DUTY = 32
        M2DUTY = 33
        MIXEDDUTY = 34
        M1SPEED = 35
        M2SPEED = 36
        MIXEDSPEED = 37
        M1SPEEDACCEL = 38
        M2SPEEDACCEL = 39
        MIXEDSPEEDACCEL = 40
        M1SPEEDDIST = 41
        M2SPEEDDIST = 42
        MIXEDSPEEDDIST = 43
        M1SPEEDACCELDIST = 44
        M2SPEEDACCELDIST = 45
        MIXEDSPEEDACCELDIST = 46
        GETBUFFERS = 47
        GETPWMS = 48
        GETCURRENTS = 49
        MIXEDSPEED2ACCEL = 50
        MIXEDSPEED2ACCELDIST = 51
        M1DUTYACCEL = 52
        M2DUTYACCEL = 53
        MIXEDDUTYACCEL = 54
        READM1PID = 55
        READM2PID = 56
        SETMAINVOLTAGES = 57
        SETLOGICVOLTAGES = 58
        GETMINMAXMAINVOLTAGES = 59
        GETMINMAXLOGICVOLTAGES = 60
        SETM1POSPID = 61
        SETM2POSPID = 62
        READM1POSPID = 63
        READM2POSPID = 64
        M1SPEEDACCELDECCELPOS = 65
        M2SPEEDACCELDECCELPOS = 66
        MIXEDSPEEDACCELDECCELPOS = 67
        SETM1DEFAULTACCEL = 68
        SETM2DEFAULTACCEL = 69
        SETPINFUNCTIONS = 74
        GETPINFUNCTIONS = 75
        SETDEADBAND = 76
        GETDEADBAND = 77
        RESTOREDEFAULTS = 80
        GETTEMP = 82
        GETTEMP2 = 83
        GETERROR = 90
        GETENCODERMODE = 91
        SETM1ENCODERMODE = 92
        SETM2ENCODERMODE = 93
        WRITENVM = 94
        READNVM = 95
        SETCONFIG = 98
        GETCONFIG = 99
        SETM1MAXCURRENT = 133
        SETM2MAXCURRENT = 134
        GETM1MAXCURRENT = 135
        GETM2MAXCURRENT = 136
        SETPWMMODE = 148
        GETPWMMODE = 149
        READEEPROM = 252
        WRITEEEPROM = 253
        FLAGBOOTLOADER = 255

    # Private Functions
    def crc_clear(self):
        self._crc = 0
        return

    def crc_update(self, data):
        self._crc = self._crc ^ (data << 8)
        for bit in range(0, 8):
            if (self._crc & 0x8000) == 0x8000:
                self._crc = ((self._crc << 1) ^ 0x1021)
            else:
                self._crc = self._crc << 1
        return

    def _sendcommand(self, address, command):
        self.crc_clear()
        self.crc_update(address)
        #		self._port.write(chr(address))
        self._port.write(address.to_bytes(1, 'big'))
        self.crc_update(command)
        #		self._port.write(chr(command))
        self._port.write(command.to_bytes(1, 'big'))
        return

    def _readchecksumword(self):
        data = self._port.read(2)
        if len(data) == 2:
            #			crc = (ord(data[0])<<8) | ord(data[1])
            crc = (data[0] << 8) | data[1]
            return (1, crc)
        return (0, 0)

    def _readbyte(self):
        data = self._port.read(1)
        if len(data):
            val = ord(data)
            self.crc_update(val)
            return (1, val)
        return (0, 0)

    def _readword(self):
        val1 = self._readbyte()
        if val1[0]:
            val2 = self._readbyte()
            if val2[0]:
                return (1, val1[1] << 8 | val2[1])
        return (0, 0)

    def _readlong(self):
        val1 = self._readbyte()
        if val1[0]:
            val2 = self._readbyte()
            if val2[0]:
                val3 = self._readbyte()
                if val3[0]:
                    val4 = self._readbyte()
                    if val4[0]:
                        return (1, val1[1] << 24 | val2[1] << 16 | val3[1] << 8 | val4[1])
        return (0, 0)

    def _readslong(self):
        val = self._readlong()
        if val[0]:
            if val[1] & 0x80000000:
                return (val[0], val[1] - 0x100000000)
            return (val[0], val[1])
        return (0, 0)

    def _writebyte(self, val):
        self.crc_update(val & 0xFF)
        #		self._port.write(chr(val&0xFF))
        self._port.write(val.to_bytes(1, 'big'))

    def _writesbyte(self, val):
        self._writebyte(val)

    def _writeword(self, val):
        self._writebyte((val >> 8) & 0xFF)
        self._writebyte(val & 0xFF)

    def _writesword(self, val):
        self._writeword(val)

    def _writelong(self, val):
        self._writebyte((val >> 24) & 0xFF)
        self._writebyte((val >> 16) & 0xFF)
        self._writebyte((val >> 8) & 0xFF)
        self._writebyte(val & 0xFF)

    def _writeslong(self, val):
        self._writelong(val)

    def _read1(self, address, cmd):
        trys = self._trystimeout
        while 1:
            self._port.flushInput()
            self._sendcommand(address, cmd)
            val1 = self._readbyte()
            if val1[0]:
                crc = self._readchecksumword()
                if crc[0]:
                    if self._crc & 0xFFFF != crc[1] & 0xFFFF:
                        return (0, 0)
                    return (1, val1[1])
            trys -= 1
            if trys == 0:
                break
        return (0, 0)

    def _read2(self, address, cmd):
        trys = self._trystimeout
        while 1:
            self._port.flushInput()
            self._sendcommand(address, cmd)
            val1 = self._readword()
            if val1[0]:
                crc = self._readchecksumword()
                if crc[0]:
                    if self._crc & 0xFFFF != crc[1] & 0xFFFF:
                        return (0, 0)
                    return (1, val1[1])
            trys -= 1
            if trys == 0:
                break
        return (0, 0)

    def _read4(self, address, cmd):
        trys = self._trystimeout
        while 1:
            self._port.flushInput()
            self._sendcommand(address, cmd)
            val1 = self._readlong()
            if val1[0]:
                crc = self._readchecksumword()
                if crc[0]:
                    if self._crc & 0xFFFF != crc[1] & 0xFFFF:
                        return (0, 0)
                    return (1, val1[1])
            trys -= 1
            if trys == 0:
                break
        return (0, 0)

    def _read4_1(self, address, cmd):
        trys = self._trystimeout
        while 1:
            self._port.flushInput()
            self._sendcommand(address, cmd)
            val1 = self._readslong()
            if val1[0]:
                val2 = self._readbyte()
                if val2[0]:
                    crc = self._readchecksumword()
                    if crc[0]:
                        if self._crc & 0xFFFF != crc[1] & 0xFFFF:
                            return (0, 0)
                        return (1, val1[1], val2[1])
            trys -= 1
            if trys == 0:
                break
        return (0, 0)

    def _read_n(self, address, cmd, args):
        trys = self._trystimeout
        while 1:
            self._port.flushInput()
            trys -= 1
            if trys == 0:
                break
            failed = False
            self._sendcommand(address, cmd)
            data = [1, ]
            for i in range(0, args):
                val = self._readlong()
                if val[0] == 0:
                    failed = True
                    break
                data.append(val[1])
            if failed:
                continue
            crc = self._readchecksumword()
            if crc[0]:
                if self._crc & 0xFFFF == crc[1] & 0xFFFF:
                    return data
        return 0, 0, 0, 0, 0

    def _writechecksum(self):
        self._writeword(self._crc & 0xFFFF)
        val = self._readbyte()
        if (len(val) > 0):
            if val[0]:
                return True
        return False

    def _write0(self, address, cmd):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write1(self, address, cmd, val):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writebyte(val)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write11(self, address, cmd, val1, val2):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writebyte(val1)
            self._writebyte(val2)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write111(self, address, cmd, val1, val2, val3):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writebyte(val1)
            self._writebyte(val2)
            self._writebyte(val3)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write2(self, address, cmd, val):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writeword(val)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS2(self, address, cmd, val):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writesword(val)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write22(self, address, cmd, val1, val2):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writeword(val1)
            self._writeword(val2)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS22(self, address, cmd, val1, val2):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writesword(val1)
            self._writeword(val2)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS2S2(self, address, cmd, val1, val2):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writesword(val1)
            self._writesword(val2)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS24(self, address, cmd, val1, val2):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writesword(val1)
            self._writelong(val2)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS24S24(self, address, cmd, val1, val2, val3, val4):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writesword(val1)
            self._writelong(val2)
            self._writesword(val3)
            self._writelong(val4)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4(self, address, cmd, val):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS4(self, address, cmd, val):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writeslong(val)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write44(self, address, cmd, val1, val2):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writelong(val2)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4S4(self, address, cmd, val1, val2):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writeslong(val2)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS4S4(self, address, cmd, val1, val2):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writeslong(val1)
            self._writeslong(val2)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write441(self, address, cmd, val1, val2, val3):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writelong(val2)
            self._writebyte(val3)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS441(self, address, cmd, val1, val2, val3):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writeslong(val1)
            self._writelong(val2)
            self._writebyte(val3)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4S4S4(self, address, cmd, val1, val2, val3):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writeslong(val2)
            self._writeslong(val3)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4S441(self, address, cmd, val1, val2, val3, val4):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writeslong(val2)
            self._writelong(val3)
            self._writebyte(val4)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4444(self, address, cmd, val1, val2, val3, val4):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writelong(val2)
            self._writelong(val3)
            self._writelong(val4)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4S44S4(self, address, cmd, val1, val2, val3, val4):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writeslong(val2)
            self._writelong(val3)
            self._writeslong(val4)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write44441(self, address, cmd, val1, val2, val3, val4, val5):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writelong(val2)
            self._writelong(val3)
            self._writelong(val4)
            self._writebyte(val5)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _writeS44S441(self, address, cmd, val1, val2, val3, val4, val5):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writeslong(val1)
            self._writelong(val2)
            self._writeslong(val3)
            self._writelong(val4)
            self._writebyte(val5)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4S44S441(self, address, cmd, val1, val2, val3, val4, val5, val6):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writeslong(val2)
            self._writelong(val3)
            self._writeslong(val4)
            self._writelong(val5)
            self._writebyte(val6)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4S444S441(self, address, cmd, val1, val2, val3, val4, val5, val6, val7):
        trys = self._trystimeout
        while trys:
            self._sendcommand(self, address, cmd)
            self._writelong(val1)
            self._writeslong(val2)
            self._writelong(val3)
            self._writelong(val4)
            self._writeslong(val5)
            self._writelong(val6)
            self._writebyte(val7)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write4444444(self, address, cmd, val1, val2, val3, val4, val5, val6, val7):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writelong(val2)
            self._writelong(val3)
            self._writelong(val4)
            self._writelong(val5)
            self._writelong(val6)
            self._writelong(val7)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    def _write444444441(self, address, cmd, val1, val2, val3, val4, val5, val6, val7, val8, val9):
        trys = self._trystimeout
        while trys:
            self._sendcommand(address, cmd)
            self._writelong(val1)
            self._writelong(val2)
            self._writelong(val3)
            self._writelong(val4)
            self._writelong(val5)
            self._writelong(val6)
            self._writelong(val7)
            self._writelong(val8)
            self._writebyte(val9)
            if self._writechecksum():
                return True
            trys = trys - 1
        return False

    # User accessible functions
    def SendRandomData(self, cnt):
        for i in range(0, cnt):
            byte = random.getrandbits(8)
            #			self._port.write(chr(byte))
            self._port.write(byte.to_bytes(1, 'big'))
        return

    def ForwardM1(self, address, val):
        return self._write1(address, self.Cmd.M1FORWARD, val)

    def BackwardM1(self, address, val):
        return self._write1(address, self.Cmd.M1BACKWARD, val)

    def SetMinVoltageMainBattery(self, address, val):
        return self._write1(address, self.Cmd.SETMINMB, val)

    def SetMaxVoltageMainBattery(self, address, val):
        return self._write1(address, self.Cmd.SETMAXMB, val)

    def ForwardM2(self, address, val):
        return self._write1(address, self.Cmd.M2FORWARD, val)

    def BackwardM2(self, address, val):
        return self._write1(address, self.Cmd.M2BACKWARD, val)

    def ForwardBackwardM1(self, address, val):
        return self._write1(address, self.Cmd.M17BIT, val)

    def ForwardBackwardM2(self, address, val):
        return self._write1(address, self.Cmd.M27BIT, val)

    def ForwardMixed(self, address, val):
        return self._write1(address, self.Cmd.MIXEDFORWARD, val)

    def BackwardMixed(self, address, val):
        return self._write1(address, self.Cmd.MIXEDBACKWARD, val)

    def TurnRightMixed(self, address, val):
        return self._write1(address, self.Cmd.MIXEDRIGHT, val)

    def TurnLeftMixed(self, address, val):
        return self._write1(address, self.Cmd.MIXEDLEFT, val)

    def ForwardBackwardMixed(self, address, val):
        return self._write1(address, self.Cmd.MIXEDFB, val)

    def LeftRightMixed(self, address, val):
        return self._write1(address, self.Cmd.MIXEDLR, val)

    def ReadEncM1(self, address):
        return self._read4_1(address, self.Cmd.GETM1ENC)

    def ReadEncM2(self, address):
        return self._read4_1(address, self.Cmd.GETM2ENC)

    def ReadSpeedM1(self, address):
        return self._read4_1(address, self.Cmd.GETM1SPEED)

    def ReadSpeedM2(self, address):
        return self._read4_1(address, self.Cmd.GETM2SPEED)

    def ResetEncoders(self, address):
        return self._write0(address, self.Cmd.RESETENC)

    def ReadVersion(self, address):
        trys = self._trystimeout
        while 1:
            self._port.flushInput()
            self._sendcommand(address, self.Cmd.GETVERSION)
            str = ""
            passed = True
            for i in range(0, 48):
                data = self._port.read(1)
                if len(data):
                    val = ord(data)
                    self.crc_update(val)
                    if (val == 0):
                        break
                    #					str+=data[0]
                    str += chr(data[0])
                else:
                    passed = False
                    break
            if passed:
                crc = self._readchecksumword()
                if crc[0]:
                    if self._crc & 0xFFFF == crc[1] & 0xFFFF:
                        return (1, str)
                    else:
                        time.sleep(0.01)
            trys -= 1
            if trys == 0:
                break
        return (0, 0)

    def SetEncM1(self, address, cnt):
        return self._write4(address, self.Cmd.SETM1ENCCOUNT, cnt)

    def SetEncM2(self, address, cnt):
        return self._write4(address, self.Cmd.SETM2ENCCOUNT, cnt)

    def ReadMainBatteryVoltage(self, address):
        return self._read2(address, self.Cmd.GETMBATT)

    def ReadLogicBatteryVoltage(self, address, ):
        return self._read2(address, self.Cmd.GETLBATT)

    def SetMinVoltageLogicBattery(self, address, val):
        return self._write1(address, self.Cmd.SETMINLB, val)

    def SetMaxVoltageLogicBattery(self, address, val):
        return self._write1(address, self.Cmd.SETMAXLB, val)

    def SetM1VelocityPID(self, address, p, i, d, qpps):
        #		return self._write4444(address,self.Cmd.SETM1PID,long(d*65536),long(p*65536),long(i*65536),qpps)
        return self._write4444(address, self.Cmd.SETM1PID, d * 65536, p * 65536, i * 65536, qpps)

    def SetM2VelocityPID(self, address, p, i, d, qpps):
        #		return self._write4444(address,self.Cmd.SETM2PID,long(d*65536),long(p*65536),long(i*65536),qpps)
        return self._write4444(address, self.Cmd.SETM2PID, d * 65536, p * 65536, i * 65536, qpps)

    def ReadISpeedM1(self, address):
        return self._read4_1(address, self.Cmd.GETM1ISPEED)

    def ReadISpeedM2(self, address):
        return self._read4_1(address, self.Cmd.GETM2ISPEED)

    def DutyM1(self, address, val):
        return self._writeS2(address, self.Cmd.M1DUTY, val)

    def DutyM2(self, address, val):
        return self._writeS2(address, self.Cmd.M2DUTY, val)

    def DutyM1M2(self, address, m1, m2):
        return self._writeS2S2(address, self.Cmd.MIXEDDUTY, m1, m2)

    def SpeedM1(self, address, val):
        return self._writeS4(address, self.Cmd.M1SPEED, val)

    def SpeedM2(self, address, val):
        return self._writeS4(address, self.Cmd.M2SPEED, val)

    def SpeedM1M2(self, address, m1, m2):
        return self._writeS4S4(address, self.Cmd.MIXEDSPEED, m1, m2)

    def SpeedAccelM1(self, address, accel, speed):
        return self._write4S4(address, self.Cmd.M1SPEEDACCEL, accel, speed)

    def SpeedAccelM2(self, address, accel, speed):
        return self._write4S4(address, self.Cmd.M2SPEEDACCEL, accel, speed)

    def SpeedAccelM1M2(self, address, accel, speed1, speed2):
        return self._write4S4S4(address, self.Cmd.MIXEDSPEEDACCEL, accel, speed1, speed2)

    def SpeedDistanceM1(self, address, speed, distance, buffer):
        return self._writeS441(address, self.Cmd.M1SPEEDDIST, speed, distance, buffer)

    def SpeedDistanceM2(self, address, speed, distance, buffer):
        return self._writeS441(address, self.Cmd.M2SPEEDDIST, speed, distance, buffer)

    def SpeedDistanceM1M2(self, address, speed1, distance1, speed2, distance2, buffer):
        return self._writeS44S441(address, self.Cmd.MIXEDSPEEDDIST, speed1, distance1, speed2, distance2, buffer)

    def SpeedAccelDistanceM1(self, address, accel, speed, distance, buffer):
        return self._write4S441(address, self.Cmd.M1SPEEDACCELDIST, accel, speed, distance, buffer)

    def SpeedAccelDistanceM2(self, address, accel, speed, distance, buffer):
        return self._write4S441(address, self.Cmd.M2SPEEDACCELDIST, accel, speed, distance, buffer)

    def SpeedAccelDistanceM1M2(self, address, accel, speed1, distance1, speed2, distance2, buffer):
        return self._write4S44S441(address, self.Cmd.MIXEDSPEEDACCELDIST, accel, speed1, distance1, speed2, distance2,
                                   buffer)

    def ReadBuffers(self, address):
        val = self._read2(address, self.Cmd.GETBUFFERS)
        if val[0]:
            return (1, val[1] >> 8, val[1] & 0xFF)
        return (0, 0, 0)

    def ReadPWMs(self, address):
        val = self._read4(address, self.Cmd.GETPWMS)
        if val[0]:
            pwm1 = val[1] >> 16
            pwm2 = val[1] & 0xFFFF
            if pwm1 & 0x8000:
                pwm1 -= 0x10000
            if pwm2 & 0x8000:
                pwm2 -= 0x10000
            return (1, pwm1, pwm2)
        return (0, 0, 0)

    def ReadCurrents(self, address):
        val = self._read4(address, self.Cmd.GETCURRENTS)
        if val[0]:
            cur1 = val[1] >> 16
            cur2 = val[1] & 0xFFFF
            if cur1 & 0x8000:
                cur1 -= 0x10000
            if cur2 & 0x8000:
                cur2 -= 0x10000
            return (1, cur1, cur2)
        return (0, 0, 0)

    def SpeedAccelM1M2_2(self, address, accel1, speed1, accel2, speed2):
        return self._write4S44S4(address, self.Cmd.MIXEDSPEED2ACCEL, accel1, speed1, accel2, speed2)

    def SpeedAccelDistanceM1M2_2(self, address, accel1, speed1, distance1, accel2, speed2, distance2, buffer):
        return self._write4S444S441(address, self.Cmd.MIXEDSPEED2ACCELDIST, accel1, speed1, distance1, accel2, speed2,
                                    distance2, buffer)

    def DutyAccelM1(self, address, accel, duty):
        return self._writeS24(address, self.Cmd.M1DUTYACCEL, duty, accel)

    def DutyAccelM2(self, address, accel, duty):
        return self._writeS24(address, self.Cmd.M2DUTYACCEL, duty, accel)

    def DutyAccelM1M2(self, address, accel1, duty1, accel2, duty2):
        return self._writeS24S24(address, self.Cmd.MIXEDDUTYACCEL, duty1, accel1, duty2, accel2)

    def ReadM1VelocityPID(self, address):
        data = self._read_n(address, self.Cmd.READM1PID, 4)
        if data[0]:
            data[1] /= 65536.0
            data[2] /= 65536.0
            data[3] /= 65536.0
            return data
        return (0, 0, 0, 0, 0)

    def ReadM2VelocityPID(self, address):
        data = self._read_n(address, self.Cmd.READM2PID, 4)
        if data[0]:
            data[1] /= 65536.0
            data[2] /= 65536.0
            data[3] /= 65536.0
            return data
        return (0, 0, 0, 0, 0)

    def SetMainVoltages(self, address, min, max):
        return self._write22(address, self.Cmd.SETMAINVOLTAGES, min, max)

    def SetLogicVoltages(self, address, min, max):
        return self._write22(address, self.Cmd.SETLOGICVOLTAGES, min, max)

    def ReadMinMaxMainVoltages(self, address):
        val = self._read4(address, self.Cmd.GETMINMAXMAINVOLTAGES)
        if val[0]:
            min = val[1] >> 16
            max = val[1] & 0xFFFF
            return (1, min, max)
        return (0, 0, 0)

    def ReadMinMaxLogicVoltages(self, address):
        val = self._read4(address, self.Cmd.GETMINMAXLOGICVOLTAGES)
        if val[0]:
            min = val[1] >> 16
            max = val[1] & 0xFFFF
            return (1, min, max)
        return (0, 0, 0)

    def SetM1PositionPID(self, address, kp, ki, kd, kimax, deadzone, min, max):
        #		return self._write4444444(address,self.Cmd.SETM1POSPID,long(kd*1024),long(kp*1024),long(ki*1024),kimax,deadzone,min,max)
        return self._write4444444(address, self.Cmd.SETM1POSPID, kd * 1024, kp * 1024, ki * 1024, kimax, deadzone, min,
                                  max)

    def SetM2PositionPID(self, address, kp, ki, kd, kimax, deadzone, min, max):
        #		return self._write4444444(address,self.Cmd.SETM2POSPID,long(kd*1024),long(kp*1024),long(ki*1024),kimax,deadzone,min,max)
        return self._write4444444(address, self.Cmd.SETM2POSPID, kd * 1024, kp * 1024, ki * 1024, kimax, deadzone, min,
                                  max)

    def ReadM1PositionPID(self, address):
        data = self._read_n(address, self.Cmd.READM1POSPID, 7)
        if data[0]:
            data[1] /= 1024.0
            data[2] /= 1024.0
            data[3] /= 1024.0
            return data
        return (0, 0, 0, 0, 0, 0, 0, 0)

    def ReadM2PositionPID(self, address):
        data = self._read_n(address, self.Cmd.READM2POSPID, 7)
        if data[0]:
            data[1] /= 1024.0
            data[2] /= 1024.0
            data[3] /= 1024.0
            return data
        return (0, 0, 0, 0, 0, 0, 0, 0)

    def SpeedAccelDeccelPositionM1(self, address, accel, speed, deccel, position, buffer):
        return self._write44441(address, self.Cmd.M1SPEEDACCELDECCELPOS, accel, speed, deccel, position, buffer)

    def SpeedAccelDeccelPositionM2(self, address, accel, speed, deccel, position, buffer):
        return self._write44441(address, self.Cmd.M2SPEEDACCELDECCELPOS, accel, speed, deccel, position, buffer)

    def SpeedAccelDeccelPositionM1M2(self, address, accel1, speed1, deccel1, position1, accel2, speed2, deccel2,
                                     position2, buffer):
        return self._write444444441(address, self.Cmd.MIXEDSPEEDACCELDECCELPOS, accel1, speed1, deccel1, position1,
                                    accel2, speed2, deccel2, position2, buffer)

    def SetM1DefaultAccel(self, address, accel):
        return self._write4(address, self.Cmd.SETM1DEFAULTACCEL, accel)

    def SetM2DefaultAccel(self, address, accel):
        return self._write4(address, self.Cmd.SETM2DEFAULTACCEL, accel)

    def SetPinFunctions(self, address, S3mode, S4mode, S5mode):
        return self._write111(address, self.Cmd.SETPINFUNCTIONS, S3mode, S4mode, S5mode)

    def ReadPinFunctions(self, address):
        trys = self._trystimeout
        while 1:
            self._sendcommand(address, self.Cmd.GETPINFUNCTIONS)
            val1 = self._readbyte()
            if val1[0]:
                val2 = self._readbyte()
                if val1[0]:
                    val3 = self._readbyte()
                    if val1[0]:
                        crc = self._readchecksumword()
                        if crc[0]:
                            if self._crc & 0xFFFF != crc[1] & 0xFFFF:
                                return (0, 0)
                            return (1, val1[1], val2[1], val3[1])
            trys -= 1
            if trys == 0:
                break
        return (0, 0)

    def SetDeadBand(self, address, min, max):
        return self._write11(address, self.Cmd.SETDEADBAND, min, max)

    def GetDeadBand(self, address):
        val = self._read2(address, self.Cmd.GETDEADBAND)
        if val[0]:
            return (1, val[1] >> 8, val[1] & 0xFF)
        return (0, 0, 0)

    # Warning(TTL Serial): Baudrate will change if not already set to 38400.  Communications will be lost
    def RestoreDefaults(self, address):
        return self._write0(address, self.Cmd.RESTOREDEFAULTS)

    def ReadTemp(self, address):
        return self._read2(address, self.Cmd.GETTEMP)

    def ReadTemp2(self, address):
        return self._read2(address, self.Cmd.GETTEMP2)

    def ReadError(self, address):
        return self._read4(address, self.Cmd.GETERROR)

    def ReadEncoderModes(self, address):
        val = self._read2(address, self.Cmd.GETENCODERMODE)
        if val[0]:
            return (1, val[1] >> 8, val[1] & 0xFF)
        return (0, 0, 0)

    def SetM1EncoderMode(self, address, mode):
        return self._write1(address, self.Cmd.SETM1ENCODERMODE, mode)

    def SetM2EncoderMode(self, address, mode):
        return self._write1(address, self.Cmd.SETM2ENCODERMODE, mode)

    # saves active settings to NVM
    def WriteNVM(self, address):
        return self._write4(address, self.Cmd.WRITENVM, 0xE22EAB7A)

    # restores settings from NVM
    # Warning(TTL Serial): If baudrate changes or the control mode changes communications will be lost
    def ReadNVM(self, address):
        return self._write0(address, self.Cmd.READNVM)

    # Warning(TTL Serial): If control mode is changed from packet serial mode when setting config communications will be lost!
    # Warning(TTL Serial): If baudrate of packet serial mode is changed communications will be lost!
    def SetConfig(self, address, config):
        return self._write2(address, self.Cmd.SETCONFIG, config)

    def GetConfig(self, address):
        return self._read2(address, self.Cmd.GETCONFIG)

    def SetM1MaxCurrent(self, address, max):
        return self._write44(address, self.Cmd.SETM1MAXCURRENT, max, 0)

    def SetM2MaxCurrent(self, address, max):
        return self._write44(address, self.Cmd.SETM2MAXCURRENT, max, 0)

    def ReadM1MaxCurrent(self, address):
        data = self._read_n(address, self.Cmd.GETM1MAXCURRENT, 2)
        if data[0]:
            return (1, data[1])
        return (0, 0)

    def ReadM2MaxCurrent(self, address):
        data = self._read_n(address, self.Cmd.GETM2MAXCURRENT, 2)
        if data[0]:
            return (1, data[1])
        return (0, 0)

    def SetPWMMode(self, address, mode):
        return self._write1(address, self.Cmd.SETPWMMODE, mode)

    def ReadPWMMode(self, address):
        return self._read1(address, self.Cmd.GETPWMMODE)

    def ReadEeprom(self, address, ee_address):
        trys = self._trystimeout
        while 1:
            self._port.flushInput()
            self._sendcommand(address, self.Cmd.READEEPROM)
            self.crc_update(ee_address)
            self._port.write(chr(ee_address))
            val1 = self._readword()
            if val1[0]:
                crc = self._readchecksumword()
                if crc[0]:
                    if self._crc & 0xFFFF != crc[1] & 0xFFFF:
                        return (0, 0)
                    return (1, val1[1])
            trys -= 1
            if trys == 0:
                break
        return (0, 0)

    def WriteEeprom(self, address, ee_address, ee_word):
        retval = self._write111(address, self.Cmd.WRITEEEPROM, ee_address, ee_word >> 8, ee_word & 0xFF)
        if retval == True:
            trys = self._trystimeout
            while 1:
                self._port.flushInput()
                val1 = self._readbyte()
                if val1[0]:
                    if val1[1] == 0xaa:
                        return True
                trys -= 1
                if trys == 0:
                    break
        return False

    def Open(self):
        try:
            self._port = serial.Serial(port=self.comport, baudrate=self.rate, timeout=1, interCharTimeout=self.timeout)
        except:
            return 0
        return 1