using Aitex.Core.RT.Routine;
using MECF.Framework.Common.CommonData.PUF;
using MECF.Framework.Common.Routine;
using MECF.Framework.Common.TwinCat;
using CyberX8_Core;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace CyberX8_RT.Devices.AXIS.CANOpen
{
public class MaxonProfilePositionRoutine : RoutineBase, IRoutine
{
private enum ProfilePositionStep
{
WriteInitControlWord,
ProfileModeOfOperation,
WriteProfileParameter,
WriteProfilePositionControlWord,
Delay,
CheckRun,
NoneModeOfOperation,
EnableOperation,
End
}
#region 常量
private const string PROFILE_VELOCITY = "ProfileVelocity";
private const string PROFILE_ACCEL = "ProfileAccel";
private const string PROFILE_DECEL = "ProfileDecel";
private const string TARGET_POSITION = "TargetPosition";
#endregion
#region 内部变量
private JetAxisBase _axis;
private int _profileVelocity = 0;
private int _profileAcceleration = 0;
private int _profileDeceleration = 0;
private int _targetPosition;
private bool _judgeTorqueLimit = false;
#endregion
public MaxonProfilePositionRoutine(string module,JetAxisBase axis) : base(module)
{
_axis = axis;
}
public void Abort()
{
Runner.Stop("Manual Abort");
}
public RState Monitor()
{
Runner.Run(ProfilePositionStep.WriteInitControlWord, () => { return _axis.WriteControlWord(0x0F); },() => { return CheckControlWord(0x0F); },500)
.Run(ProfilePositionStep.ProfileModeOfOperation, () => { return _axis.WriteModeOfMode(AxisModeOfOperation.ProfilePositionMode); },()=> { return CheckModeOfOperation((byte)AxisModeOfOperation.ProfilePositionMode); }, 1000)
.Run(ProfilePositionStep.WriteProfileParameter, () => { return WriteProfileParameter(); },NullFun,100)
.Run(ProfilePositionStep.WriteProfilePositionControlWord, () => { return _axis.WriteControlWord(0x3F); }, () => { return CheckControlWord(0x3F); },1000)
.Delay(ProfilePositionStep.Delay, 1000)
.WaitWithStopCondition(ProfilePositionStep.CheckRun,CheckRun,CheckRunStop)
.Run(ProfilePositionStep.NoneModeOfOperation, () => { return _axis.WriteModeOfMode(AxisModeOfOperation.None); },() => { return CheckModeOfOperation((byte)AxisModeOfOperation.None); },1000)
.Run(ProfilePositionStep.EnableOperation, () => { return _axis.EnableOperation(); }, () => { return CheckControlWord(0x0F); },1000)
.End(ProfilePositionStep.End,NullFun,100);
return Runner.Status;
}
private bool WriteProfileParameter()
{
bool result= _axis.WriteVariable(TARGET_POSITION, _targetPosition);
return result;
}
public bool CheckModeOfOperation(byte modeOfOperation)
{
return _axis.ModeOfOperation == modeOfOperation;
}
public bool CheckControlWord(ushort controlWord)
{
return _axis.ControlWord == controlWord;
}
private bool CheckRun()
{
if (_judgeTorqueLimit)
{
return _axis.InTargetPosition && !_axis.IsRun && _axis.JudgeCurrentPositionIsInTargetPosition(_targetPosition);
}
else
{
bool isTorqueOver = TorqueIsOverLimit();
//过载同时掉电
if(isTorqueOver&&!_axis.IsSwitchOn)
{
return true;
}
return false;
}
}
///
/// Torque是否过载
///
///
private bool TorqueIsOverLimit()
{
return !_axis.MotionData.TorqueLimited;
}
private bool CheckRunStop()
{
//没有到达目标同时没有运动
bool isStop = !_axis.IsRun&& !_axis.JudgeCurrentPositionIsInTargetPosition(_targetPosition);
if (isStop)
{
ErrorMsg = "position is stop";
return true;
}
if(_judgeTorqueLimit)
{
if(TorqueIsOverLimit())
{
ErrorMsg = "Torque is over limit";
return true;
}
}
return false;
}
public RState Start(params object[] objs)
{
_targetPosition = (int)objs[0];
_profileVelocity = (int)objs[1];
_profileAcceleration = (int)objs[2];
_profileDeceleration = (int)objs[3];
if (objs.Length >= 5)
{
_judgeTorqueLimit = (bool)objs[4];
}
return Runner.Start(Module, "ProfilePosition");
}
}
}