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from ctypes import *
import time, platform
def enum(**enums):
return type('Enum', (), enums)
EndType = enum(EndTypeCustom=0,
EndTypeSuctionCup=1,
EndTypeGripper=2,
EndTypeLaser=3,
EndTypePen = 4,
EndTypeMax=5)
# For EndTypeParams
class EndTypeParams(Structure):
_pack_ = 1
_fields_ = [
("xBias", c_float),
("yBias", c_float),
("zBias", c_float)
]
class Pose(Structure):
_pack_ = 1
_fields_ = [
("x", c_float),
("y", c_float),
("z", c_float),
("rHead", c_float),
("joint1Angle", c_float),
("joint2Angle", c_float),
("joint3Angle", c_float),
("joint4Angle", c_float)
]
class Kinematics(Structure):
_pack_ = 1
_fields_ = [
("velocity", c_float),
("acceleration", c_float)
]
class AlarmsState(Structure):
_pack_ = 1
_fields_ = [
("alarmsState", c_int32)
]
class HOMEParams(Structure):
_pack_ = 1
_fields_ = [
("x", c_float),
("y", c_float),
("z", c_float),
("r", c_float)
]
class HOMECmd(Structure):
_pack_ = 1
_fields_ = [
("temp", c_float)
]
class EMotor(Structure):
_pack_ = 1
_fields_ = [
("index", c_byte),
("isEnabled", c_byte),
("speed", c_float)
]
class EMotorS(Structure):
_pack_ = 1
_fields_ = [
("index", c_byte),
("isEnabled", c_byte),
("deltaPulse", c_int)
]
################## Arm orientation ##################
ArmOrientation = enum(
LeftyArmOrientation=0,
RightyArmOrientation=1)
################## ##################
class JOGJointParams(Structure):
_pack_ = 1
_fields_ = [
("joint1Velocity", c_float),
("joint2Velocity", c_float),
("joint3Velocity", c_float),
("joint4Velocity", c_float),
("joint1Acceleration", c_float),
("joint2Acceleration", c_float),
("joint3Acceleration", c_float),
("joint4Acceleration", c_float)
]
class JOGCoordinateParams(Structure):
_pack_ = 1
_fields_ = [
("xVelocity", c_float),
("yVelocity", c_float),
("zVelocity", c_float),
("rVelocity", c_float),
("xAcceleration", c_float),
("yAcceleration", c_float),
("zAcceleration", c_float),
("rAcceleration", c_float)
]
class JOGCommonParams(Structure):
_pack_ = 1
_fields_ = [
("velocityRatio", c_float),
("accelerationRatio", c_float)
]
class JOGLParams(Structure):
_pack_ = 1
_fields_ = [
("velocity", c_float),
("acceleration", c_float)
]
JC = enum(JogIdle=0,
JogAPPressed=1,
JogANPressed=2,
JogBPPressed=3,
JogBNPressed=4,
JogCPPressed=5,
JogCNPressed=6,
JogDPPressed=7,
JogDNPressed=8,
JogEPPressed=9,
JogENPressed=10)
class JOGCmd(Structure):
_pack_ = 1
_fields_ = [
("isJoint", c_byte),
("cmd", c_byte)
]
################## ##################
class PTPJointParams(Structure):
_fields_ = [
("joint1Velocity", c_float),
("joint2Velocity", c_float),
("joint3Velocity", c_float),
("joint4Velocity", c_float),
("joint1Acceleration", c_float),
("joint2Acceleration", c_float),
("joint3Acceleration", c_float),
("joint4Acceleration", c_float)
]
class PTPCoordinateParams(Structure):
_fields_ = [
("xyzVelocity", c_float),
("rVelocity", c_float),
("xyzAcceleration", c_float),
("rAcceleration", c_float)
]
class PTPLParams(Structure):
_pack_ = 1
_fields_ = [
("velocity", c_float),
("acceleration", c_float)
]
class PTPJumpParams(Structure):
_pack_ = 1
_fields_ = [
("jumpHeight", c_float),
("zLimit", c_float)
]
class PTPCommonParams(Structure):
_pack_ = 1
_fields_ = [
("velocityRatio", c_float),
("accelerationRatio", c_float)
]
PTPMode = enum(
PTPJUMPXYZMode=0,
PTPMOVJXYZMode=1,
PTPMOVLXYZMode=2,
PTPJUMPANGLEMode=3,
PTPMOVJANGLEMode=4,
PTPMOVLANGLEMode=5,
PTPMOVJANGLEINCMode=6,
PTPMOVLXYZINCMode=7,
PTPMOVJXYZINCMode=8,
PTPJUMPMOVLXYZMode=9)
InputPin = enum( InputPinNone=0,
InputPin1=1,
InputPin2=2,
InputPin3=3,
InputPin4=4,
InputPin5=5,
InputPin6=6,
InputPin7=7,
InputPin8=8)
InputLevel = enum(InputLevelBoth=0,
InputLevelLow=1,
InputLevelHigh=2)
OutputPin = enum(
SIGNALS_O1=1,
SIGNALS_O2=2,
SIGNALS_O3=3,
SIGNALS_O4=4,
SIGNALS_O5=5,
SIGNALS_O6=6,
SIGNALS_O7=7,
SIGNALS_O8=8)
class PTPCmd(Structure):
_pack_ = 1
_fields_ = [
("ptpMode", c_byte),
("x", c_float),
("y", c_float),
("z", c_float),
("rHead", c_float),
("gripper", c_float)
]
class PTPWithLCmd(Structure):
_pack_ = 1
_fields_ = [
("ptpMode", c_byte),
("x", c_float),
("y", c_float),
("z", c_float),
("rHead", c_float),
("l", c_float),
("gripper", c_float)
]
################## Continuous path ##################
class CPParams(Structure):
_pack_ = 1
_fields_ = [
("planAcc", c_float),
("juncitionVel", c_float),
("acc", c_float),
("realTimeTrack", c_byte)
]
ContinuousPathMode = enum(
CPRelativeMode=0,
CPAbsoluteMode=1)
class CPCmd(Structure):
_pack_ = 1
_fields_ = [
("cpMode", c_byte),
("x", c_float),
("y", c_float),
("z", c_float),
("velocity", c_float)
]
################## ARC ##################
class ARCPoint(Structure):
_pack_ = 1
_fields_ = [
("x", c_float),
("y", c_float),
("z", c_float),
("rHead", c_float)
]
class ARCParams(Structure):
_pack_ = 1
_fields_ = [
("xyzVelocity", c_float),
("rVelocity", c_float),
("xyzAcceleration", c_float),
("rAcceleration", c_float)
]
class ARCCmd(Structure):
_pack_ = 1
_fields_ = [
("cirPoint", ARCPoint),
("toPoint", ARCPoint)
]
################## User parameters ##################
class WAITParams(Structure):
_pack_ = 1
_fields_ = [
("unitType", c_byte)
]
class WAITCmd(Structure):
_pack_ = 1
_fields_ = [
("waitTime", c_uint32)
]
TRIGMode = enum(
TRIGInputIOMode = 0,
TRIGADCMode=1)
TRIGInputIOCondition = enum(
TRIGInputIOEqual = 0,
TRIGInputIONotEqual=1)
TRIGADCCondition = enum(
TRIGADCLT = 0,
TRIGADCLE=1,
TRIGADCGE = 2,
TRIGADCGT=3)
class TRIGCmd(Structure):
_pack_ = 1
_fields_ = [
("address", c_byte),
("mode", c_byte),
("condition", c_byte),
("threshold", c_uint16)
]
GPIOType = enum(
GPIOTypeDO = 1,
GPIOTypePWM=2,
GPIOTypeDI=3,
GPIOTypeADC=4)
class IOMultiplexing(Structure):
_pack_ = 1
_fields_ = [
("address", c_byte),
("multiplex", c_byte)
]
class IODO(Structure):
_pack_ = 1
_fields_ = [
("address", c_byte),
("level", c_byte)
]
class IOPWM(Structure):
_pack_ = 1
_fields_ = [
("address", c_byte),
("frequency", c_float),
("dutyCycle", c_float)
]
class IODI(Structure):
_pack_ = 1
_fields_ = [
("address", c_byte),
("level", c_byte)
]
class IOADC(Structure):
_pack_ = 1
_fields_ = [
("address", c_byte),
("value", c_int)
]
class UserParams(Structure):
_pack_ = 1
_fields_ = [
("params1", c_float),
("params2", c_float),
("params3", c_float),
("params4", c_float),
("params5", c_float),
("params6", c_float),
("params7", c_float),
("params8", c_float)
]
ZDFCalibStatus = enum(
ZDFCalibNotFinished=0,
ZDFCalibFinished=1)
"""
WIFI
JoMar
20160906
"""
class WIFIIPAddress(Structure):
_pack_ = 1
_fields_ = [
("dhcp", c_byte),
("addr1", c_byte),
("addr2", c_byte),
("addr3", c_byte),
("addr4", c_byte),
]
class WIFINetmask(Structure):
_pack_ = 1
_fields_ = [
("addr1", c_byte),
("addr2", c_byte),
("addr3", c_byte),
("addr4", c_byte),
]
class WIFIGateway(Structure):
_pack_ = 1
_fields_ = [
("addr1", c_byte),
("addr2", c_byte),
("addr3", c_byte),
("addr4", c_byte),
]
class WIFIDNS(Structure):
_pack_ = 1
_fields_ = [
("addr1", c_byte),
("addr2", c_byte),
("addr3", c_byte),
("addr4", c_byte),
]
################## API result ##################
DobotConnect = enum(
DobotConnect_NoError=0,
DobotConnect_NotFound=1,
DobotConnect_Occupied=2)
DobotCommunicate = enum(
DobotCommunicate_NoError=0,
DobotCommunicate_BufferFull=1,
DobotCommunicate_Timeout=2)
################## API func ##################
def load():
if platform.system() == "Windows":
return CDLL("DobotDll.dll", RTLD_GLOBAL)
elif platform.system() == "Darwin" :
return CDLL("libDobotDll.dylib", RTLD_GLOBAL)
else:
return cdll.loadLibrary("libDobotDll.so")
def dSleep(ms):
time.sleep(ms / 1000)
def gettime():
return time.time()
def output(str):
#print(str)
#sys.stdout.flush()
pass
def SearchDobot(api, maxLen=1000):
szPara = create_string_buffer(1000) #((len(str(maxLen)) + 4) * maxLen + 10)
l = api.SearchDobot(szPara, maxLen)
if l == 0:
return []
ret = szPara.value.decode("utf-8")
return ret.split(" ")
def ConnectDobot(api, portName, baudrate):
szPara = create_string_buffer(100)
szPara.raw = portName.encode("utf-8")
fwType = create_string_buffer(100)
version = create_string_buffer(100)
result = api.ConnectDobot(szPara, baudrate, fwType, version)
return [result, fwType.value.decode("utf-8"), version.value.decode("utf-8")]
def DisconnectDobot(api):
api.DisconnectDobot()
def PeriodicTask(api):
api.PeriodicTask()
def SetCmdTimeout(api, times):
api.SetCmdTimeout(times)
def DobotExec(api):
return api.DobotExec()
def GetQueuedCmdCurrentIndex(api):
queuedCmdIndex = c_uint64(0)
while(True):
result = api.GetQueuedCmdCurrentIndex(byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(2)
continue
break
return [queuedCmdIndex.value]
def SetQueuedCmdStartExec(api):
while(True):
result = api.SetQueuedCmdStartExec()
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def SetQueuedCmdStopExec(api):
while(True):
result = api.SetQueuedCmdStopExec()
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def SetQueuedCmdForceStopExec(api):
while(True):
result = api.SetQueuedCmdForceStopExec()
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def SetQueuedCmdStartDownload(api, totalLoop, linePerLoop):
while(True):
result = api.SetQueuedCmdStartDownload(totalLoop, linePerLoop)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def SetQueuedCmdStopDownload(api):
while(True):
result = api.SetQueuedCmdStopDownload()
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def SetQueuedCmdClear(api):
return api.SetQueuedCmdClear()
def SetDeviceSN(api, str):
szPara = create_string_buffer(25)
szPara.raw = str.encode("utf-8")
while(True):
result = api.SetDeviceSN(szPara)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetDeviceSN(api):
szPara = create_string_buffer(25)
while(True):
result = api.GetDeviceSN(szPara, 25)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
ret = szPara.value.decode("utf-8")
output('GetDeviceSN: ' + ret)
return ret
def SetDeviceName(api, str):
szPara = create_string_buffer(66)
szPara.raw = str.encode("utf-8")
while(True):
result = api.SetDeviceName(szPara)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetDeviceName(api):
szPara = create_string_buffer(66)
while(True):
result = api.GetDeviceName(szPara, 100)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
ret = szPara.value.decode("utf-8")
output('GetDeviceName: ' + ret)
return ret
def GetDeviceVersion(api):
majorVersion = c_byte(0)
minorVersion = c_byte(0)
revision = c_byte(0)
while(True):
result = api.GetDeviceVersion(byref(majorVersion), byref(minorVersion), byref(revision))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetDeviceVersion: V%d.%d.%d' %(majorVersion.value, minorVersion.value, revision.value))
return [majorVersion.value, minorVersion.value, revision.value]
def SetDeviceWithL(api, isWithL):
cIsWithL = c_bool(isWithL)
while(True):
result = api.SetDeviceWithL(cIsWithL)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetDeviceWithL(api):
isWithL = c_bool(False)
while(True):
result = api.GetDeviceWithL(byref(isWithL))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return isWithL.value
def ResetPose(api, manual, rearArmAngle, frontArmAngle):
c_rearArmAngle = c_float(rearArmAngle)
c_frontArmAngle = c_float(frontArmAngle)
while(True):
result = api.ResetPose(manual, c_rearArmAngle, c_frontArmAngle)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetPose(api):
pose = Pose()
while(True):
result = api.GetPose(byref(pose))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetPose: %.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f' %(pose.x,pose.y,pose.z,pose.rHead, pose.joint1Angle,pose.joint2Angle,pose.joint3Angle,pose.joint4Angle))
return [pose.x, pose.y, pose.z,pose.rHead, pose.joint1Angle, pose.joint2Angle, pose.joint3Angle, pose.joint4Angle]
def GetPoseL(api):
l = c_float(0)
while(True):
result = api.GetPoseL(byref(l))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [l.value]
def GetKinematics(api):
kinematics = Kinematics()
while(True):
result = api.GetKinematics(byref(kinematics))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetKinematics: velocity=%.4f acceleration=%.4f' %(kinematics.velocity, kinematics.acceleration))
return [kinematics.velocity, kinematics.acceleration]
def GetAlarmsState(api, maxLen=1000):
alarmsState = create_string_buffer(maxLen)
#alarmsState = c_byte(0)
len = c_int(0)
while(True):
result = api.GetAlarmsState(alarmsState, byref(len), maxLen)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
#output('GetAlarmsState: alarmsState=%.4f len=%.4f' %(alarmsState.value, len.value))
return [alarmsState.raw, len.value]
def ClearAllAlarmsState(api):
while(True):
result = api.ClearAllAlarmsState()
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetUserParams(api):
param = UserParams()
while(True):
result = api.GetUserParams(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetUserParams: %.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f' %(param.params1,param.params2,param.params3,param.params4,param.params5,param.params6,param.params7,param.params8))
return [param.params1,param.params2,param.params3,param.params4,param.params5,param.params6,param.params7,param.params8]
def SetHOMEParams(api, x, y, z, r, isQueued=0):
param = HOMEParams()
param.x = x
param.y = y
param.z = z
param.r = r
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetHOMEParams(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetHOMEParams(api):
param = HOMEParams()
while(True):
result = api.GetHOMEParams(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetUserParams: %.4f' %(param.temp))
return [param.temp]
def SetHOMECmd(api, temp, isQueued=0):
cmd = HOMECmd()
cmd.temp = temp
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetHOMECmd(byref(cmd), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def SetArmOrientation(api, armOrientation, isQueued=0):
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetArmOrientation(armOrientation, isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetArmOrientation(api):
armOrientation = c_int32(0)
while(True):
result = api.GetArmOrientation(byref(armOrientation))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetArmOrientation: armOrientation=%d' %(armOrientation.value))
return [armOrientation.value]
def SetHHTTrigMode(api, hhtTrigMode):
while(True):
result = api.SetHHTTrigMode(hhtTrigMode)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetHHTTrigMode(api):
hhtTrigMode = c_int(0)
while(True):
result = api.GetHHTTrigMode(byref(hhtTrigMode))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [hhtTrigMode.value]
def SetHHTTrigOutputEnabled(api, isEnabled):
while(True):
result = api.SetHHTTrigOutputEnabled(isEnabled)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetHHTTrigOutputEnabled(api):
isEnabled = c_int32(0)
while(True):
result = api.GetHHTTrigOutputEnabled(byref(isEnabled))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [isEnabled.value]
def GetHHTTrigOutput(api):
isAvailable = c_int32(0)
result = api.GetHHTTrigOutput(byref(isAvailable))
if result != DobotCommunicate.DobotCommunicate_NoError or isAvailable.value == 0:
return False
return True
def SetEndEffectorParams(api, xBias, yBias, zBias, isQueued=0):
param = EndTypeParams()
param.xBias = xBias
param.yBias = yBias
param.zBias = zBias
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetEndEffectorParams(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetEndEffectorParams(api):
param = EndTypeParams()
while(True):
result = api.GetEndEffectorParams(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetEndEffectorParams: xBias=%.4f yBias=%.4f zBias=%.4f' %(param.xBias, param.yBias, param.zBias))
return [param.xBias, param.yBias, param.zBias]
def SetEndEffectorLaser(api, enableCtrl, on, isQueued=0):
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetEndEffectorLaser(enableCtrl, on, isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetEndEffectorLaser(api):
isCtrlEnabled = c_int(0)
isOn = c_int(0)
while(True):
result = api.GetEndEffectorLaser(byref(isCtrlEnabled), byref(isOn))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetEndEffectorLaser: isCtrlEnabled=%d, isOn=%4f' %(isCtrlEnabled.value, isOn.value))
return [isCtrlEnabled.value, isOn.value]
def SetEndEffectorSuctionCup(api, enableCtrl, on, isQueued=0):
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetEndEffectorSuctionCup(enableCtrl, on, isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetEndEffectorSuctionCup(api):
enableCtrl = c_int(0)
isOn = c_int(0)
while(True):
result = api.GetEndEffectorSuctionCup(byref(enableCtrl), byref(isOn))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetEndEffectorSuctionCup: isOn=%.4f' %(isOn.value))
return [isOn.value]
def SetEndEffectorGripper(api, enableCtrl, on, isQueued=0):
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetEndEffectorGripper(enableCtrl, on, isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetEndEffectorGripper(api):
enableCtrl = c_int(0)
isOn = c_int(0)
while(True):
result = api.GetEndEffectorGripper(byref(enableCtrl), byref(isOn))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetEndEffectorGripper: isOn=%.4f' %(isOn.value))
return [isOn.value]
def SetJOGJointParams(api, j1Velocity, j1Acceleration, j2Velocity, j2Acceleration, j3Velocity, j3Acceleration, j4Velocity, j4Acceleration, isQueued=0):
jogParam = JOGJointParams()
jogParam.joint1Velocity = j1Velocity
jogParam.joint1Acceleration = j1Acceleration
jogParam.joint2Velocity = j2Velocity
jogParam.joint2Acceleration = j2Acceleration
jogParam.joint3Velocity = j3Velocity
jogParam.joint3Acceleration = j3Acceleration
jogParam.joint4Velocity = j4Velocity
jogParam.joint4Acceleration = j4Acceleration
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetJOGJointParams(byref(jogParam), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetJOGJointParams(api):
param = JOGJointParams()
while(True):
result = api.GetJOGJointParams(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetJOGJointParams: %.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f' %(param.joint1Velocity, param.joint1Acceleration, param.joint2Velocity, param.joint2Acceleration, param.joint3Velocity, param.joint3Acceleration, param.joint4Velocity, param.joint4Acceleration))
return [param.joint1Velocity, param.joint1Acceleration, param.joint2Velocity, param.joint2Acceleration, param.joint3Velocity, param.joint3Acceleration, param.joint4Velocity, param.joint4Acceleration]
def SetJOGCoordinateParams(api, xVelocity, xAcceleration, yVelocity, yAcceleration, zVelocity, zAcceleration, rVelocity, rAcceleration, isQueued=0):
param = JOGCoordinateParams()
param.xVelocity = xVelocity
param.xAcceleration = xAcceleration
param.yVelocity = yVelocity
param.yAcceleration = yAcceleration
param.zVelocity = zVelocity
param.zAcceleration = zAcceleration
param.rVelocity = rVelocity
param.rAcceleration = rAcceleration
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetJOGCoordinateParams(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetJOGCoordinateParams(api):
param = JOGCoordinateParams()
while(True):
result = api.GetJOGCoordinateParams(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetJOGCoordinateParams: %.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f' %(param.xVelocity, param.xAcceleration, param.yVelocity, param.yVelocity, param.zVelocity, param.zAcceleration, param.rVelocity, param.rAcceleration))
return [param.xVelocity, param.xAcceleration, param.yVelocity, param.yVelocity, param.zVelocity, param.zAcceleration, param.rVelocity, param.rAcceleration]
def SetJOGLParams(api, velocity, acceleration, isQueued=0):
param = JOGLParams()
param.velocity = velocity
param.acceleration = acceleration
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetJOGLParams(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetJOGLParams(api):
param = JOGLParams()
while(True):
result = api.GetJOGLParams(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [param.velocity, param.acceleration]
def SetJOGCommonParams(api, value_velocityratio, value_accelerationratio, isQueued=0):
param = JOGCommonParams()
param.velocityRatio = value_velocityratio
param.accelerationRatio = value_accelerationratio
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetJOGCommonParams(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetJOGCommonParams(api):
param = JOGCommonParams()
while(True):
result = api.GetJOGCommonParams(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetJOGCommonParams: velocityRatio=%.4f accelerationRatio=%.4f' %(param.velocityRatio, param.accelerationRatio))
return [param.velocityRatio, param.accelerationRatio]
def SetJOGCmd(api, isJoint, cmd, isQueued=0):
cmdParam = JOGCmd()
cmdParam.isJoint = isJoint
cmdParam.cmd = cmd
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetJOGCmd(byref(cmdParam), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def SetPTPJointParams(api, j1Velocity, j1Acceleration, j2Velocity, j2Acceleration, j3Velocity, j3Acceleration, j4Velocity, j4Acceleration, isQueued=0):
pbParam = PTPJointParams()
pbParam.joint1Velocity = j1Velocity
pbParam.joint1Acceleration = j1Acceleration
pbParam.joint2Velocity = j2Velocity
pbParam.joint2Acceleration = j2Acceleration
pbParam.joint3Velocity = j3Velocity
pbParam.joint3Acceleration = j3Acceleration
pbParam.joint4Velocity = j4Velocity
pbParam.joint4Acceleration = j4Acceleration
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetPTPJointParams(byref(pbParam), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetPTPJointParams(api):
pbParam = PTPJointParams()
while(True):
result = api.GetPTPJointParams(byref(pbParam))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetPTPJointParams: %.4f %.4f %.4f %.4f %.4f %.4f %.4f %.4f' %(pbParam.joint1Velocity,pbParam.joint1Acceleration,pbParam.joint2Velocity,pbParam.joint2Acceleration,pbParam.joint3Velocity,pbParam.joint3Acceleration,pbParam.joint4Velocity,pbParam.joint4Acceleration))
return [pbParam.joint1Velocity,pbParam.joint1Acceleration,pbParam.joint2Velocity,pbParam.joint2Acceleration,pbParam.joint3Velocity,pbParam.joint3Acceleration,pbParam.joint4Velocity,pbParam.joint4Acceleration]
def SetPTPCoordinateParams(api, xyzVelocity, xyzAcceleration, rVelocity, rAcceleration, isQueued=0):
pbParam = PTPCoordinateParams()
pbParam.xyzVelocity = xyzVelocity
pbParam.rVelocity = rVelocity
pbParam.xyzAcceleration = xyzAcceleration
pbParam.rAcceleration = rAcceleration
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetPTPCoordinateParams(byref(pbParam), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetPTPCoordinateParams(api):
pbParam = PTPCoordinateParams()
while(True):
result = api.GetPTPCoordinateParams(byref(pbParam))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetPTPCoordinateParams: xyzVelocity=%.4f rVelocity=%.4f xyzAcceleration=%.4f rAcceleration=%.4f' %(pbParam.xyzVelocity, pbParam.rVelocity, pbParam.xyzAcceleration, pbParam.rAcceleration))
return [pbParam.xyzVelocity, pbParam.rVelocity, pbParam.xyzAcceleration, pbParam.rAcceleration]
def SetPTPLParams(api, velocity, acceleration, isQueued=0):
param = PTPLParams()
param.velocity = velocity
param.acceleration = acceleration
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetPTPLParams(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetPTPLParams(api):
param = PTPLParams()
while(True):
result = api.GetPTPLParams(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [param.velocity, param.acceleration]
def SetPTPJumpParams(api, jumpHeight, zLimit, isQueued=0):
pbParam = PTPJumpParams()
pbParam.jumpHeight = jumpHeight
pbParam.zLimit = zLimit
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetPTPJumpParams(byref(pbParam), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetPTPJumpParams(api):
pbParam = PTPJumpParams()
while(True):
result = api.GetPTPJumpParams(byref(pbParam))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetPTPJumpParams: jumpHeight=%.4f zLimit=%.4f' %(pbParam.jumpHeight, pbParam.zLimit))
return [pbParam.jumpHeight, pbParam.zLimit]
def SetPTPCommonParams(api, velocityRatio, accelerationRatio, isQueued=0):
pbParam = PTPCommonParams()
pbParam.velocityRatio = velocityRatio
pbParam.accelerationRatio = accelerationRatio
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetPTPCommonParams(byref(pbParam), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetPTPCommonParams(api):
pbParam = PTPCommonParams()
while(True):
result = api.GetPTPCommonParams(byref(pbParam ))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetPTPCommonParams: velocityRatio=%.4f accelerationRatio=%.4f' %(pbParam.velocityRatio, pbParam.accelerationRatio))
return [pbParam.velocityRatio, pbParam.accelerationRatio]
def SetPTPCmd(api, ptpMode, x, y, z, rHead, isQueued=0):
cmd = PTPCmd()
cmd.ptpMode=ptpMode
cmd.x=x
cmd.y=y
cmd.z=z
cmd.rHead=rHead
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetPTPCmd(byref(cmd), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(2)
continue
break
return [queuedCmdIndex.value]
def SetPTPWithLCmd(api, ptpMode, x, y, z, rHead, l, isQueued=0):
cmd = PTPWithLCmd()
cmd.ptpMode=ptpMode
cmd.x=x
cmd.y=y
cmd.z=z
cmd.rHead=rHead
cmd.l = l
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetPTPWithLCmd(byref(cmd), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(2)
continue
break
return [queuedCmdIndex.value]
def SetCPParams(api, planAcc, juncitionVel, acc, realTimeTrack = 0, isQueued=0):
parm = CPParams()
parm.planAcc = planAcc
parm.juncitionVel = juncitionVel
parm.acc = acc
parm.realTimeTrack = realTimeTrack
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetCPParams(byref(parm), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetCPParams(api):
parm = CPParams()
while(True):
result = api.GetCPParams(byref(parm))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetCPParams: planAcc=%.4f juncitionVel=%.4f acc=%.4f' %(arm.planAcc, parm.juncitionVel, parm.acc))
return [parm.planAcc, parm.juncitionVel, parm.acc]
def SetCPCmd(api, cpMode, x, y, z, velocity, isQueued=0):
cmd = CPCmd()
cmd.cpMode = cpMode
cmd.x = x
cmd.y = y
cmd.z = z
cmd.velocity = velocity
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetCPCmd(byref(cmd), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(2)
continue
break
return [queuedCmdIndex.value]
def SetCPLECmd(api, cpMode, x, y, z, power, isQueued=0):
cmd = CPCmd()
cmd.cpMode = cpMode
cmd.x = x
cmd.y = y
cmd.z = z
cmd.velocity = power
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetCPLECmd(byref(cmd), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(2)
continue
break
return [queuedCmdIndex.value]
def SetARCParams(api, xyzVelocity, rVelocity, xyzAcceleration, rAcceleration, isQueued=0):
param = ARCParams()
param.xyzVelocity = xyzVelocity
param.rVelocity = rVelocity
param.xyzAcceleration = xyzAcceleration
param.rAcceleration = rAcceleration
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetARCParams(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetARCParams(api):
parm = ARCParams()
while(True):
result = api.GetARCParams(byref(parm))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetARCParams: xyzVelocity=%.4f,rVelocity=%.4f,xyzAcceleration=%.4f,rAcceleration=%.4f' %(parm.xyzVelocity, parm.rVelocity, parm.xyzAcceleration, parm.rAcceleration))
return [parm.xyzVelocity, parm.rVelocity, parm.xyzAcceleration, parm.rAcceleration]
def SetARCCmd(api, cirPoint, toPoint, isQueued=0):
cmd = ARCCmd()
cmd.cirPoint.x = cirPoint[0];cmd.cirPoint.y = cirPoint[1];cmd.cirPoint.z = cirPoint[2];cmd.cirPoint.rHead = cirPoint[3]
cmd.toPoint.x = toPoint[0];cmd.toPoint.y = toPoint[1];cmd.toPoint.z = toPoint[2];cmd.toPoint.rHead = toPoint[3]
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetARCCmd(byref(cmd), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def SetWAITCmd(api, waitTime, isQueued=0):
param = WAITCmd()
param.waitTime = int(waitTime * 1000)
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetWAITCmd(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(100)
continue
break
return [queuedCmdIndex.value]
def SetTRIGCmd(api, address, mode, condition, threshold, isQueued=0):
param = TRIGCmd()
param.address = address
param.mode = mode
param.condition = condition
param.threshold = threshold
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetTRIGCmd(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def SetIOMultiplexing(api, address, multiplex, isQueued=0):
param = IOMultiplexing()
param.address = address
param.multiplex = multiplex
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetIOMultiplexing(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetIOMultiplexing(api, addr):
param = IOMultiplexing()
param.address = addr
while(True):
result = api.GetIOMultiplexing(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetIOMultiplexing: address=%.4f multiplex=%.4f' %(param.address, param.multiplex))
return [param.multiplex]
def SetIODO(api, address, level, isQueued=0):
param = IODO()
param.address = address
param.level = level
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetIODO(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetIODO(api, addr):
param = IODO()
param.address = addr
while(True):
result = api.GetIODO(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetIODO: address=%.4f level=%.4f' %(param.address, param.level))
return [param.level]
def SetIOPWM(api, address, frequency, dutyCycle, isQueued=0):
param = IOPWM()
param.address = address
param.frequency = frequency
param.dutyCycle = dutyCycle
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetIOPWM(byref(param), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetIOPWM(api, addr):
param = IOPWM()
param.address = addr
while(True):
result = api.GetIOPWM(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetIOPWM: address=%.4f frequency=%.4f dutyCycle=%.4f' %(param.address, param.frequency, param.dutyCycle))
return [param.frequency, param.dutyCycle]
def GetIODI(api, addr):
param = IODI()
param.address = addr
while(True):
result = api.GetIODI(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetIODI: address=%d level=%d' %(param.address, param.level))
return [param.level]
def SetEMotor(api, index, isEnabled, speed, isQueued=0):
emotor = EMotor()
emotor.index = index
emotor.isEnabled = isEnabled
emotor.speed = speed
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetEMotor(byref(emotor), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def SetEMotorS(api, index, isEnabled, deltaPulse, isQueued=0):
emotor = EMotor()
emotor.index = index
emotor.isEnabled = isEnabled
emotor.deltaPulse = deltaPulse
queuedCmdIndex = c_uint64(0)
while(True):
result = api.SetEMotor(byref(emotor), isQueued, byref(queuedCmdIndex))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [queuedCmdIndex.value]
def GetIOADC(api, addr):
param = IOADC()
param.address = addr
while(True):
result = api.GetIOADC(byref(param))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetIOADC: address=%.4f value=%.4f' %(param.address, param.value))
return [param.value]
def SetAngleSensorStaticError(api, rearArmAngleError, frontArmAngleError):
c_rearArmAngleError = c_float(rearArmAngleError)
c_frontArmAngleError = c_float(frontArmAngleError)
while(True):
result = api.SetAngleSensorStaticError(c_rearArmAngleError, c_frontArmAngleError)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetAngleSensorStaticError(api):
rearArmAngleError = c_float(0)
frontArmAngleError = c_float(0)
while(True):
result = api.GetAngleSensorStaticError(byref(rearArmAngleError), byref(frontArmAngleError))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetAngleSensorStaticError: rearArmAngleError=%.4f,frontArmAngleError=%.4f' %(rearArmAngleError.value, frontArmAngleError.value))
return [rearArmAngleError.value, frontArmAngleError.value]
def SetAngleSensorCoef(api, rearArmAngleCoef, frontArmAngleCoef):
c_rearArmAngleCoef = c_float(rearArmAngleCoef)
c_frontArmAngleCoef = c_float(frontArmAngleCoef)
while(True):
result = api.SetAngleSensorCoef(c_rearArmAngleCoef, c_frontArmAngleCoef)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetAngleSensorCoef(api):
rearArmAngleCoef = c_float(0)
frontArmAngleCoef = c_float(0)
while(True):
result = api.GetAngleSensorCoef(byref(rearArmAngleCoef), byref(frontArmAngleCoef))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetAngleSensorStaticCoef: rearArmAngleCoef=%.4f,frontArmAngleCoef=%.4f' %(rearArmAngleCoef.value, frontArmAngleCoef.value))
return [rearArmAngleCoef.value, frontArmAngleCoef.value]
def SetBaseDecoderStaticError(api, baseDecoderError):
c_baseDecoderError = c_float(baseDecoderError)
while(True):
result = api.SetBaseDecoderStaticError(c_baseDecoderError)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetBaseDecoderStaticError(api):
baseDecoderError = c_float(0)
while(True):
result = api.GetBaseDecoderStaticError(byref(baseDecoderError))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetBaseDecoderStaticError: baseDecoderError=%.4f' %(baseDecoderError.value))
return [baseDecoderError.value]
"""
WIFI
JoMar
20160906
"""
def GetWIFIConnectStatus(api):
isConnected = c_bool(0)
while(True):
result = api.GetWIFIConnectStatus(byref(isConnected))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetWIFIConnectStatus: isConnected=%d' %(isConnected.value))
return isConnected.value
def SetWIFIConfigMode(api, enable):
while(True):
result = api.SetWIFIConfigMode(enable)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetWIFIConfigMode(api):
isEnabled = c_bool(0)
while(True):
result = api.GetWIFIConfigMode(byref(isEnabled))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetWIFIConfigMode: isEnabled=%d' %(isEnabled.value))
return isEnabled.value
def SetWIFISSID(api, ssid):
szPara = create_string_buffer(25)
szPara.raw = ssid.encode("utf-8")
while(True):
result = api.SetWIFISSID(szPara)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetWIFISSID(api):
szPara = create_string_buffer(25)
while(True):
result = api.GetWIFISSID(szPara, 25)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
ssid = szPara.value.decode("utf-8")
output('GetWIFISSID: ssid=' + ssid)
return ssid
def SetWIFIPassword(api, password):
szPara = create_string_buffer(25)
szPara.raw = password.encode("utf-8")
while(True):
result = api.SetWIFIPassword(szPara)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetWIFIPassword(api):
szPara = create_string_buffer(25)
while(True):
result = api.GetWIFIPassword(szPara, 25)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
password = szPara.value.decode("utf-8")
output('GetWIFIPassword: password=' + password)
return password
def SetWIFIIPAddress(api, dhcp, addr1, addr2, addr3, addr4):
wifiIPAddress = WIFIIPAddress()
wifiIPAddress.dhcp = dhcp
wifiIPAddress.addr1 = addr1
wifiIPAddress.addr2 = addr2
wifiIPAddress.addr3 = addr3
wifiIPAddress.addr4 = addr4
while(True):
result = api.SetWIFIIPAddress(byref(wifiIPAddress))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetWIFIIPAddress(api):
wifiIPAddress = WIFIIPAddress()
while(True):
result = api.GetWIFIIPAddress(byref(wifiIPAddress))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetWIFIIPAddress: IPAddress=%d.%d.%d.%d' %(wifiIPAddress.addr1, wifiIPAddress.addr2, wifiIPAddress.addr3, wifiIPAddress.addr4))
return [c_uint8(wifiIPAddress.dhcp).value, c_uint8(wifiIPAddress.addr1).value, c_uint8(wifiIPAddress.addr2).value, c_uint8(wifiIPAddress.addr3).value, c_uint8(wifiIPAddress.addr4).value]
def SetWIFINetmask(api, addr1, addr2, addr3, addr4):
wifiNetmask = WIFINetmask()
wifiNetmask.addr1 = addr1
wifiNetmask.addr2 = addr2
wifiNetmask.addr3 = addr3
wifiNetmask.addr4 = addr4
while(True):
result = api.SetWIFINetmask(byref(wifiNetmask))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetWIFINetmask(api):
wifiNetmask = WIFINetmask()
while(True):
result = api.GetWIFINetmask(byref(wifiNetmask))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetWIFINetmask: Netmask=%d.%d.%d.%d' %(wifiNetmask.addr1, wifiNetmask.addr2, wifiNetmask.addr3, wifiNetmask.addr4))
return [c_uint8(wifiNetmask.addr1).value, c_uint8(wifiNetmask.addr2).value, c_uint8(wifiNetmask.addr3).value, c_uint8(wifiNetmask.addr4).value]
def SetWIFIGateway(api, addr1, addr2, addr3, addr4):
wifiGateway = WIFIGateway()
wifiGateway.addr1 = addr1
wifiGateway.addr2 = addr2
wifiGateway.addr3 = addr3
wifiGateway.addr4 = addr4
while(True):
result = api.SetWIFIGateway(byref(wifiGateway))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetWIFIGateway(api):
wifiGateway = WIFIGateway()
while(True):
result = api.GetWIFIGateway(byref(wifiGateway))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetWIFIGateway: wifiGateway=%d.%d.%d.%d' %(wifiGateway.addr1, wifiGateway.addr2, wifiGateway.addr3, wifiGateway.addr4))
return [c_uint8(wifiGateway.addr1).value, c_uint8(wifiGateway.addr2).value, c_uint8(wifiGateway.addr3).value, c_uint8(wifiGateway.addr4).value]
def SetWIFIDNS(api, addr1, addr2, addr3, addr4):
wifiDNS = WIFIDNS()
wifiDNS.addr1 = addr1
wifiDNS.addr2 = addr2
wifiDNS.addr3 = addr3
wifiDNS.addr4 = addr4
while(True):
result = api.SetWIFIDNS(byref(wifiDNS))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetWIFIDNS(api):
wifiDNS = WIFIDNS()
while(True):
result = api.GetWIFIDNS(byref(wifiDNS))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
output('GetWIFIDNS: wifiDNS=%d.%d.%d.%d' %(wifiDNS.addr1, wifiDNS.addr2, wifiDNS.addr3, wifiDNS.addr4))
return [c_uint8(wifiDNS.addr1).value, c_uint8(wifiDNS.addr2).value, c_uint8(wifiDNS.addr3).value, c_uint8(wifiDNS.addr4).value]
def SetColorSensor(api, isEnable):
enable = c_bool(isEnable)
while(True):
result = api.SetColorSensor(enable)
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
def GetColorSensor(api):
r = c_ubyte(0)
g = c_ubyte(0)
b = c_ubyte(0)
while(True):
result = api.GetColorSensor(byref(r), byref(g), byref(b))
if result != DobotCommunicate.DobotCommunicate_NoError:
dSleep(5)
continue
break
return [r.value, g.value, b.value]
################## Ex扩展函数该套函数会检测每一条指令运行完毕 ##################
def GetPoseEx(api, index):
if index == 0:
ret = GetDeviceWithL(api)
if not ret:
print("Dobot is not in L model")
return
lr = GetPoseL(api)
return round(lr[0], 4)
pos = GetPose(api)
return round(pos[index-1], 4)
def SetHOMECmdEx(api, temp, isQueued=0):
ret = SetHOMECmd(api, temp, isQueued)
queuedCmdIndex = c_uint64(0)
while(True):
result = api.GetQueuedCmdCurrentIndex(byref(queuedCmdIndex))
if result == DobotCommunicate.DobotCommunicate_NoError and ret[0] <= queuedCmdIndex.value:
break
#延时太短的话按reset键后不能断开连接
dSleep(100)
def SetWAITCmdEx(api, waitTime, isQueued=0):
#ret = SetWAITCmd(api, waitTime, isQueued)
#while(True):
# if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
# break;
dSleep(waitTime * 1000)
def SetEndEffectorParamsEx(api, xBias, yBias, zBias, isQueued=0):
ret = SetEndEffectorParams(api, xBias, yBias, zBias, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetPTPJointParamsEx(api, j1Velocity, j1Acceleration, j2Velocity, j2Acceleration, j3Velocity, j3Acceleration, j4Velocity, j4Acceleration, isQueued=0):
ret = SetPTPJointParams(api, j1Velocity, j1Acceleration, j2Velocity, j2Acceleration, j3Velocity, j3Acceleration, j4Velocity, j4Acceleration, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetPTPLParamsEx(api, lVelocity, lAcceleration, isQueued=0):
ret = GetDeviceWithL(api)
if not ret:
print("Dobot is not in L model")
return
ret = SetPTPLParams(api, lVelocity, lAcceleration, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetPTPCommonParamsEx(api, velocityRatio, accelerationRatio, isQueued=0):
ret = SetPTPCommonParams(api, velocityRatio, accelerationRatio, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetPTPJumpParamsEx(api, jumpHeight, maxJumpHeight, isQueued=0):
ret = SetPTPJumpParams(api, jumpHeight, maxJumpHeight, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetPTPCmdEx(api, ptpMode, x, y, z, rHead, isQueued=0):
ret = SetPTPCmd(api, ptpMode, x, y, z, rHead, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetIOMultiplexingEx(api, address, multiplex, isQueued=0):
ret = SetIOMultiplexing(api, address, multiplex, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetEndEffectorSuctionCupEx(api, enableCtrl, on, isQueued=0):
ret = SetEndEffectorSuctionCup(api, enableCtrl, on, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetEndEffectorGripperEx(api, enableCtrl, on, isQueued=0):
ret = SetEndEffectorGripper(api, enableCtrl, on, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetIODOEx(api, address, level, isQueued=0):
ret = SetIODO(api, address, level, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetEMotorEx(api, index, isEnabled, speed, isQueued=0):
ret = SetEMotor(api, index, isEnabled, speed, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetEMotorSEx(api, index, isEnabled, speed, deltaPulse, isQueued=0):
ret = SetEMotorS(api, index, isEnabled, speed, deltaPulse, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetIOPWMEx(api, address, frequency, dutyCycle, isQueued=0):
while(True):
ret = SetIOPWM(api, address, frequency, dutyCycle, isQueued)
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def SetPTPWithLCmdEx(api, ptpMode, x, y, z, rHead, l, isQueued=0):
ret = GetDeviceWithL(api)
if not ret:
print("Dobot is not in L model")
return
ret = SetPTPWithLCmd(api, ptpMode, x, y, z, rHead, l, isQueued)
while(True):
if ret[0] <= GetQueuedCmdCurrentIndex(api)[0]:
break;
dSleep(5)
def GetColorSensorEx(api, index):
result = GetColorSensor(api)
return result[index]