share/doc_html/robot__cli_8hpp_source.html

#pragma once

#ifndef XCORESDK_SRC_CLI_ROBOT_CLI_HPP_

#define XCORESDK_SRC_CLI_ROBOT_CLI_HPP_


#include <unordered_map>

#include <any>

#include "data_types_cli.hpp"

#include "exception_cli.hpp"

#include "force_control_cli.hpp"

#include "welding_cli.hpp"

#include "arcwelding_cli.hpp"


using namespace System;

using namespace System::Collections::Generic;

using namespace System::Runtime::InteropServices;


namespace rokae {


    class BaseRobot;

    class BaseCobot;

    template<unsigned short DoF>

    class Model_T;

    class StandardRobot;

    class xMateRobot;

    class xMateCr5Robot;

    class xMateErProRobot;

    class PCB3Robot;

    class PCB4Robot;


}


namespace rokae::clr {


    public ref class BaseRobot {

    protected:


        rokae::BaseRobot* robot;

        rokae::StandardRobot* ir6;

        rokae::PCB3Robot* ir3;

        rokae::PCB4Robot* ir4;

        rokae::xMateCr5Robot* cobot5;

        rokae::xMateRobot* cobot6;

        rokae::xMateErProRobot* cobot7;

        rokae::Model_T<3>* model3;

        rokae::Model_T<4>* model4;

        rokae::Model_T<5>* model5;

        rokae::Model_T<6>* model6;

        rokae::Model_T<7>* model7;


        void _moveEventCallback(const std::unordered_map<std::string, std::any>& info);

        void _safetyEventCallback(const std::unordered_map<std::string, std::any>& info);

        void _rlExecutionEventCallback(const std::unordered_map<std::string, std::any>& info);

        void _logReporterEventCallback(const std::unordered_map<std::string, std::any>& info);

        void _arcWeldStateEventCallback(const std::unordered_map<std::string, std::any>& info);

        void _lasertrackStateEventCallback(const std::unordered_map<std::string, std::any>& info);

        void _anticollisionStateEventCallback(const std::unordered_map<std::string, std::any>& info);

        void _schedStateEventCallback(const std::unordered_map<std::string, std::any>& info);

        EventCallbackNativeDelegate^ _moveNativeDelegate;

        static EventCallbackDelegate^ _moveManagedDelegate;

        EventCallbackNativeDelegate^ _safetyNativeDelegate;

        static EventCallbackDelegate^ _safetyManagedDelegate;

        EventCallbackNativeDelegate^ _rlExecutionNativeDelegate;

        static EventCallbackDelegate^ _rlExecutionManagedDelegate;

        EventCallbackNativeDelegate^ _logReporterNativeDelegate;

        static EventCallbackDelegate^ _logReporterManagedDelegate;

        EventCallbackNativeDelegate^ _arcWeldStateNativeDelegate;

        static EventCallbackDelegate^ _arcWeldStateManagedDelegate;

        EventCallbackNativeDelegate^ _lasertrackStateNativeDelegate;

        static EventCallbackDelegate^ _lasertrackStateManagedDelegate;

        EventCallbackNativeDelegate^ _anticollisionStateNativeDelegate;

        static EventCallbackDelegate^ _anticollisionStateManagedDelegate;

        EventCallbackNativeDelegate^ _schedStateNativeDelegate;

        static EventCallbackDelegate^ _schedStateManagedDelegate;


    public:

        virtual ~BaseRobot();


        void connectToRobot([Out] ErrorCode^% ec);


        void connectToRobot(String^ remoteIP);


        void connectToRobot(String^ remoteIP, String^ localIP);


        void disconnectFromRobot([Out] ErrorCode^% ec);


        Info robotInfo([Out] ErrorCode^% ec);


        String^ sdkVersion();


        PowerState powerState([Out] ErrorCode^% ec);


        void setPowerState(Boolean on, [Out] ErrorCode^% ec);


        OperateMode operateMode([Out] ErrorCode^% ec);


        void setOperateMode(OperateMode mode, [Out] ErrorCode^% ec);


        OperationState operationState([Out] ErrorCode^% ec);


        array<double>^ jointPos([Out] ErrorCode^% ec);


        array<double>^ jointVel([Out] ErrorCode^% ec);


        array<double>^ jointTorque([Out] ErrorCode^% ec);


        array<double>^ posture(CoordinateType ct, [Out] ErrorCode^% ec);


        CartesianPosition^ cartPosture(CoordinateType ct, [Out] ErrorCode^% ec);


        array<double>^ baseFrame([Out] ErrorCode^% ec);


        Toolset^ toolset([Out] ErrorCode^% ec);


        void setToolset(Toolset^ toolset, [Out] ErrorCode^% ec);


        void setToolset(System::String^ toolName, System::String^ wobjName, [Out] ErrorCode^% ec);


        void setBaseFrame(Frame^ frame, [Out] ErrorCode^% ec);


        void setMotionControlMode(MotionControlMode mode, [Out] ErrorCode^% ec);


        void moveReset([Out] ErrorCode^% ec);


        void stop([Out] ErrorCode^% ec);


        void executeCommand(MoveCommand::Type type, List<MoveCommand^>^ cmd, [Out] ErrorCode^% ec);


        void moveAppend(MoveCommand::Type type, List<MoveCommand^>^ cmd, System::String^% cmdId, [Out] ErrorCode^% ec);


        void moveAppend(MoveCommand::Type type, MoveCommand^ cmd, System::String^% cmdId, [Out] ErrorCode^% ec);


        void moveAppend(List<ArcWelding::ArcWeldingCommand^>^ cmds, System::String^% cmdId, [Out] ErrorCode^% ec);


        void moveAppend(ArcWelding::ArcWeldingCommand^ cmd, System::String^% cmdId, [Out] ErrorCode^% ec);


        void setDefaultSpeed(int speed, [Out] ErrorCode^% ec);


        void setDefaultZone(int zone, [Out] ErrorCode^% ec);


        void setDefaultConfOpt(bool forced, [Out] ErrorCode^% ec);


        void moveStart([Out] ErrorCode^% ec);


        void setMaxCacheSize(int number, [Out] ErrorCode^% ec);


        void adjustSpeedOnline(double scale, [Out] ErrorCode^% ec);


        void getAcceleration(double% acc, double% jerk, [Out] ErrorCode^% ec);


        void adjustAcceleration(double acc, double jerk, [Out] ErrorCode^% ec);


        EventInfo queryEventInfo(Event eventType, [Out] ErrorCode^% ec);


        void setEventWatcher(Event eventType, EventCallbackDelegate^ callback, [Out] ErrorCode^% ec);


        void startJog(JogSpace space, double rate, double step, unsigned index, bool direction, [Out] ErrorCode^% ec);


        void clearServoAlarm([Out] ErrorCode^% ec);


        List<LogInfo^>^ queryControllerLog(unsigned count, LogInfo::Level level, [Out] ErrorCode^% ec);


        void setDI(unsigned int board, unsigned int port, bool state, [Out] ErrorCode^% ec);


        bool getDI(unsigned int board, unsigned int port, [Out] ErrorCode^% ec);


        void setDO(unsigned int board, unsigned int port, bool state, [Out] ErrorCode^% ec);


        bool getDO(unsigned int board, unsigned int port, [Out] ErrorCode^% ec);


        double getAI(unsigned board, unsigned port, [Out] ErrorCode^% ec);


        void setAO(unsigned board, unsigned port, double value, [Out] ErrorCode^% ec);


        void setSimulationMode(bool state, [Out] ErrorCode^% ec);


        void readRegister(System::String^ name, List<bool>^% value, [Out] ErrorCode^% ec);


        void readRegister(System::String^ name, List<int>^% value, [Out] ErrorCode^% ec);


        void readRegister(System::String^ name, List<float>^% value, [Out] ErrorCode^% ec);


        void readRegister(System::String^ name, unsigned index, bool% value, [Out] ErrorCode^% ec);


        void readRegister(System::String^ name, unsigned index, int% value, [Out] ErrorCode^% ec);


        void readRegister(System::String^ name, unsigned index, float% value, [Out] ErrorCode^% ec);


        void writeRegister(System::String^ name, unsigned index, bool value, [Out] ErrorCode^% ec);


        void writeRegister(System::String^ name, unsigned index, Int32 value, [Out] ErrorCode^% ec);


        void writeRegister(System::String^ name, unsigned index, float value, [Out] ErrorCode^% ec);


        void writeRegister(System::String^ name, unsigned index, array<bool>^ value, [Out] ErrorCode^% ec);


        void writeRegister(System::String^ name, unsigned index, array<int>^ value, [Out] ErrorCode^% ec);


        void writeRegister(System::String^ name, unsigned index, array<float>^ value, [Out] ErrorCode^% ec);


        void startReceiveRobotState_Nrt(int interval,List<String ^> ^  extend_fields, int port, [Out] ErrorCode^% ec);


        void stopReceiveRobotState_Nrt([Out] ErrorCode^% ec);


        int queryStateDataPublisherServerInfo(List<String ^> ^ client_addr, [Out] ErrorCode^% ec);


        List<RLProjectInfo^>^ projectsInfo([Out] ErrorCode^% ec);


        void loadProject(String^ name, System::Collections::Generic::List<System::String^>^ tasks, [Out] ErrorCode^% ec);


        void ppToMain([Out] ErrorCode^% ec);


        void runProject([Out] ErrorCode^% ec);


        void pauseProject([Out] ErrorCode^% ec);


        void setProjectRunningOpt(double rate, bool loop, [Out] ErrorCode^% ec);


        void importProject(String^ file_path, bool overwrite, size_t max_size, [Out] ErrorCode^% ec);


        void removeProject(String^ project_name, bool remove_all, [Out] ErrorCode^% ec);


        List<WorkToolInfo^>^ toolsInfo([Out] ErrorCode^% ec);


        List<WorkToolInfo^>^ wobjsInfo([Out] ErrorCode^% ec);


        void setRailParameter(System::String^ name, Frame^ value, [Out] ErrorCode^% ec);


        void setRailParameter(System::String^ name, System::String^ value, [Out] ErrorCode^% ec);


        void setRailParameter(System::String^ name, double value, [Out] ErrorCode^% ec);


        void setRailParameter(System::String^ name, bool value, [Out] ErrorCode^% ec);


        void setRailParameter(System::String^ name, array<double>^ value, [Out] ErrorCode^% ec);


        void setRailParameter(System::String^ name, int value, [Out] ErrorCode^% ec);


        void getRailParameter(System::String^ name, bool% value, [Out] ErrorCode^% ec);


        void getRailParameter(System::String^ name, String^% value, [Out] ErrorCode^% ec);


        void getRailParameter(System::String^ name, Frame^% value, [Out] ErrorCode^% ec);


        void getRailParameter(System::String^ name, int% value, [Out] ErrorCode^% ec);


        void getRailParameter(System::String^ name, double% value, [Out] ErrorCode^% ec);


        void getRailParameter(System::String^ name, array<double>^% value, [Out] ErrorCode^% ec);


        int getStateData(String^ name, array<double>^% data);


        int getStateData(String^ name, UInt64% data);


        int getStateData(String^ name, double% data);


        void stopReceiveRobotState();


        unsigned updateRobotState(int timeout_ms);


        void configNtp(System::String^ server_ip, [Out] ErrorCode^% ec);


        void syncTimeWithServer([Out] ErrorCode^% ec);


        array<double>^ checkPath(CartesianPosition^ start, array<double>^ start_joint,

                                CartesianPosition^ target, [Out] ErrorCode^% ec);


        int checkPath(array<double>^ start_joint,

            array<CartesianPosition^>^ targets,

            array<double>^% target_joint_calculated,

            [Out] ErrorCode^% ec);


        array<double>^ checkPath(CartesianPosition^ start, array<double>^ start_joint,

                                CartesianPosition^ aux, CartesianPosition^ target,

                                [Out] ErrorCode^% ec);


        array<double>^ checkPath(CartesianPosition^ start, array<double>^ start_joint,

                                CartesianPosition^ aux1, CartesianPosition^ aux2,

                                double angle, double rot_type, [Out] ErrorCode^% ec);


        void recoverState(int item, [Out] ErrorCode^% ec);


        Welding^ welding();


        ArcWelding^ arcwelding();


        array<double>^ calcIk(CartesianPosition^ posture, [Out] ErrorCode^% ec);


        array<double>^ calcIk(CartesianPosition^ posture, Toolset^ toolset, [Out] ErrorCode^% ec);


        array<array<double>^>^ calcAllIkSolutions(CartesianPosition^ posture, array<array<int>^>^% confs, [Out] ErrorCode^% ec);


        CartesianPosition^ calcFk(array<double>^ joints, [Out] ErrorCode^% ec);


        CartesianPosition^ calcFk(array<double>^ joints, Toolset^ toolset, [Out] ErrorCode^% ec);


        FrameCalibrationResult^ calibrateFrame(FrameType type, List<array<double>^>^ points, bool is_held,

            array<double>^ base_aux, [Out] ErrorCode^% ec);


        bool getSoftLimit(array<double, 2>^% limits, [Out] ErrorCode^% ec);


        void setSoftLimit(bool enable, array<double, 2>^ limits, [Out] ErrorCode^% ec);


        void startReceiveRobotState(int interval, array<System::String^>^ fields);


        void setTeachPendantMode(bool enable, ErrorCode^% ec);


        // *********************************************************************

        // ******************           多工位预约功能        *******************

        // *********************************************************************


        void enableSched(bool enable, [Out] ErrorCode ^ % ec);


        bool getSchedEnableStatus([Out] ErrorCode ^ % ec);


        void registerEnableSched(bool enable, [Out] ErrorCode ^ % ec);


        bool getSchedRegisterEnableStatus([Out] ErrorCode ^ % ec);


        void setSched(SchedSetting^ scheds, [Out] ErrorCode ^ % ec);


        SchedSetting^ getSchedSetting([Out] ErrorCode ^ % ec);


        void registerSched(int sched_id, [Out] ErrorCode ^ % ec);


        void unregisterSched(int sched_id, [Out] ErrorCode ^ % ec);


        void unregisterAllSched([Out] ErrorCode ^ % ec);


        void clearSchedCount([Out] ErrorCode ^ % ec);


        List<SchedStatus>^ getSchedStatus([Out] ErrorCode ^ % ec);


        void schedAdvancedSetting(String^ cancelBehavior, [Out] ErrorCode ^ % ec);

};


    public ref class StandardRobot : public BaseRobot {

    public:

        StandardRobot();


        StandardRobot(String^ remoteIP);


        StandardRobot(String^ remoteIP, String^ localIP);

        ~StandardRobot(){};


        void enableCollisionDetection(array<double>^ sensitivity, double fallback, [Out] ErrorCode^% ec);


        void disableCollisionDetection([Out] ErrorCode^% ec);


        void setAvoidSingularity(AvoidSingularityMethod method, bool enable, double limit, [Out] ErrorCode^% ec);


        bool getAvoidSingularity(AvoidSingularityMethod method, [Out] ErrorCode^% ec);


    };


    public ref class Cobot : public BaseRobot {

    protected:

        rokae::BaseCobot* robot;

    public:


        void enableDrag(DragOpt::Space space, DragOpt::Type type, [Out] ErrorCode^% ec);


        void enableDrag(DragOpt::Space space, DragOpt::Type type, bool enable_drag_button, [Out] ErrorCode^% ec);


        void disableDrag([Out] ErrorCode^% ec);


        void enableCollisionDetection(array<double>^ sensitivity, StopLevel behaviour, double fallback_compliance, [Out] ErrorCode^% ec);


        void disableCollisionDetection([Out] ErrorCode^% ec);


        void calibrateForceSensor(bool all_axes, int axis_index, [Out] ErrorCode^% ec);


        void startRecordPath([Out] ErrorCode^% ec);


        void stopRecordPath([Out] ErrorCode^% ec);


        void cancelRecordPath([Out] ErrorCode^% ec);


        void saveRecordPath(String^ name, String^ saveAs, [Out] ErrorCode^% ec);


        void replayPath(String^ name, double rate, [Out] ErrorCode^% ec);


        void removePath(String^ name, bool removeAll, [Out] ErrorCode^% ec);


        List<String^>^ queryPathLists([Out] ErrorCode^% ec);


        void setxPanelVout(xPanelOpt::Vout opt, [Out] ErrorCode^% ec);


        void setxPanelRS485(xPanelOpt::Vout opt, bool if_rs485, [Out] ErrorCode^% ec);


        void XPRWModbusRTUReg(int slave_addr, int fun_cmd, int reg_addr, String^ data_type, int num,

                              array<int>^% data_array, bool if_crc_reverse, [Out] ErrorCode^% ec);


        void XPRWModbusRTUCoil(int slave_addr, int fun_cmd, int coil_addr, int num, array<bool>^% data_array,

                               bool if_crc_reverse, [Out] ErrorCode^% ec) ;


        void XPRS485SendData(int send_byte, int rev_byte, array<Byte>^ send_data, array<Byte>^% recv_data, [Out] ErrorCode^% ec);


        array<bool>^ getKeypadState([Out] ErrorCode^% ec);


        ForceControl^ forceControl();

 };


    public ref class xMateRobot : public Cobot {

    public:

        xMateRobot();


        xMateRobot(String^ remoteIP);


        xMateRobot(String^ remoteIP, String^ localIP);


        ~xMateRobot() {};


        void setAvoidSingularity(AvoidSingularityMethod method, bool enable, double limit, [Out] ErrorCode^% ec);


        bool getAvoidSingularity(AvoidSingularityMethod method, [Out] ErrorCode^% ec);

    };


    public ref class xMateCr5Robot : public Cobot {

    public:

        xMateCr5Robot();


        xMateCr5Robot(String^ remoteIP);


        xMateCr5Robot(String^ remoteIP, String^ localIP);


        ~xMateCr5Robot() {};

    };


    public ref class PCB3Robot : public BaseRobot {

    public:

        PCB3Robot();


        PCB3Robot(String^ remoteIP);


        ~PCB3Robot() {};


    };


    public ref class PCB4Robot : public BaseRobot {

    public:

        PCB4Robot();


        PCB4Robot(String^ remoteIP);


        ~PCB4Robot() {};

    };


    public ref class xMateErProRobot : public Cobot {

    public:

        xMateErProRobot();


        xMateErProRobot(String^ remoteIP);


        xMateErProRobot(String^ remoteIP, String^ localIP);


        ~xMateErProRobot() {};

    };


}


#endif //XCORESDK_SRC_CLI_ROBOT_CLI_HPP_

rokae::Model_T
Definition: robot_cli.hpp:29

rokae::clr::ArcWelding::ArcWeldingCommand
Definition: arcwelding_cli.hpp:1334

rokae::clr::ArcWelding
焊接工艺包指令
Definition: arcwelding_cli.hpp:32

rokae::clr::BaseRobot
机器人通用接口
Definition: robot_cli.hpp:44

rokae::clr::BaseRobot::setRailParameter
void setRailParameter(System::String^ name, Frame^ value, [Out] ErrorCode^% ec)
设置导轨基坐标系

rokae::clr::BaseRobot::cartPosture
CartesianPosition cartPosture(CoordinateType ct, [Out] ErrorCode^% ec)
获取机器人法兰或末端的当前位姿

rokae::clr::BaseRobot::queryStateDataPublisherServerInfo
int queryStateDataPublisherServerInfo(List< String ^> ^ client_addr, [Out] ErrorCode^% ec)
查询状态数据发布服务端信息

rokae::clr::BaseRobot::getRailParameter
void getRailParameter(System::String^ name, Frame^% value, [Out] ErrorCode^% ec)
读取导轨基座标系

rokae::clr::BaseRobot::stopReceiveRobotState_Nrt
void stopReceiveRobotState_Nrt([Out] ErrorCode^% ec)
关闭机器人非实时状态数据发送功能。

rokae::clr::BaseRobot::getRailParameter
void getRailParameter(System::String^ name, String^% value, [Out] ErrorCode^% ec)
读取导轨名称

rokae::clr::BaseRobot::setMotionControlMode
void setMotionControlMode(MotionControlMode mode, [Out] ErrorCode^% ec)
设置运动控制模式.

rokae::clr::BaseRobot::pauseProject
void pauseProject([Out] ErrorCode^% ec)
暂停运行工程

rokae::clr::BaseRobot::updateRobotState
unsigned updateRobotState(int timeout_ms)
接收一次机器人状态数据，在每周期读取数据前，需调用此函数。阻塞等待收到新数据，或超时返回。 建议按照设定的发送频率来调用，以获取最新的数据

rokae::clr::BaseRobot::writeRegister
void writeRegister(System::String^ name, unsigned index, float value, [Out] ErrorCode^% ec)
写float类型寄存器值。可写入单个寄存器，或按索引写入寄存器数组中某一元素。

rokae::clr::BaseRobot::runProject
void runProject([Out] ErrorCode^% ec)
开始运行当前加载的工程

rokae::clr::BaseRobot::connectToRobot
void connectToRobot(String^ remoteIP)
建立与机器人的连接。

rokae::clr::BaseRobot::operationState
OperationState operationState([Out] ErrorCode^% ec)
查询机器人当前运行状态 (空闲, 运动中, 拖动开启等)

rokae::clr::BaseRobot::setSched
void setSched(SchedSetting^ scheds, [Out] ErrorCode ^ % ec)
预约设置

rokae::clr::BaseRobot::configNtp
void configNtp(System::String^ server_ip, [Out] ErrorCode^% ec)
配置NTP

rokae::clr::BaseRobot::setToolset
void setToolset(System::String^ toolName, System::String^ wobjName, [Out] ErrorCode^% ec)
使用已创建的工具和工件，设置工具工件组信息

rokae::clr::BaseRobot::baseFrame
array< double > baseFrame([Out] ErrorCode^% ec)
读取基坐标系, 相对于世界坐标系

rokae::clr::BaseRobot::adjustSpeedOnline
void adjustSpeedOnline(double scale, [Out] ErrorCode^% ec)
动态调整机器人运动速率，非实时模式时生效。

rokae::clr::BaseRobot::jointPos
array< double > jointPos([Out] ErrorCode^% ec)
机器人当前轴角度 [rad], 机器人本体以及外部轴（若有）。 导轨[m]

rokae::clr::BaseRobot::setDefaultConfOpt
void setDefaultConfOpt(bool forced, [Out] ErrorCode^% ec)
设置是否使用轴配置数据(confData)计算逆解。初始值为false

rokae::clr::BaseRobot::calcFk
CartesianPosition calcFk(array< double >^ joints, [Out] ErrorCode^% ec)
根据轴角度计算正解

rokae::clr::BaseRobot::setDO
void setDO(unsigned int board, unsigned int port, bool state, [Out] ErrorCode^% ec)
设置数字量输出信号值

rokae::clr::BaseRobot::getRailParameter
void getRailParameter(System::String^ name, double% value, [Out] ErrorCode^% ec)
读取导轨参数

rokae::clr::BaseRobot::syncTimeWithServer
void syncTimeWithServer([Out] ErrorCode^% ec)
手动同步一次时间，远端IP是通过configNtp配置的。耗时几秒钟，阻塞等待同步完成，接口预设的超时时间是12秒

rokae::clr::BaseRobot::posture
array< double > posture(CoordinateType ct, [Out] ErrorCode^% ec)
获取机器人法兰或末端的当前位姿

rokae::clr::BaseRobot::setAO
void setAO(unsigned board, unsigned port, double value, [Out] ErrorCode^% ec)
设置模拟量输出信号

rokae::clr::BaseRobot::moveAppend
void moveAppend(List< ArcWelding::ArcWeldingCommand^>^ cmds, System::String^% cmdId, [Out] ErrorCode^% ec)
添加单条或多条焊接指令

rokae::clr::BaseRobot::setToolset
void setToolset(Toolset^ toolset, [Out] ErrorCode^% ec)
设置工具工件组信息。

rokae::clr::BaseRobot::writeRegister
void writeRegister(System::String^ name, unsigned index, array< int >^ value, [Out] ErrorCode^% ec)
写int16/int32类型寄存器数组。

rokae::clr::BaseRobot::moveAppend
void moveAppend(ArcWelding::ArcWeldingCommand^ cmd, System::String^% cmdId, [Out] ErrorCode^% ec)
添加单条焊接指令

rokae::clr::BaseRobot::setOperateMode
void setOperateMode(OperateMode mode, [Out] ErrorCode^% ec)
切换手自动模式

rokae::clr::BaseRobot::enableSched
void enableSched(bool enable, [Out] ErrorCode ^ % ec)
启用工位预约

rokae::clr::BaseRobot::readRegister
void readRegister(System::String^ name, unsigned index, int% value, [Out] ErrorCode^% ec)
读取int16/int32类型寄存器值。可读取单个寄存器，或按索引读取寄存器数组

rokae::clr::BaseRobot::wobjsInfo
List< WorkToolInfo^> wobjsInfo([Out] ErrorCode^% ec)
查询当前加载工程的工件信息

rokae::clr::BaseRobot::removeProject
void removeProject(String^ project_name, bool remove_all, [Out] ErrorCode^% ec)
从sdk删除RL工程

rokae::clr::BaseRobot::jointVel
array< double > jointVel([Out] ErrorCode^% ec)
机器人当前关节速度 [rad/s], 机器人本体以及外部轴（若有）。 导轨[m/s]

rokae::clr::BaseRobot::recoverState
void recoverState(int item, [Out] ErrorCode^% ec)
根据选项恢复机器人状态

rokae::clr::BaseRobot::~BaseRobot
virtual ~BaseRobot()
Deconstructor

rokae::clr::BaseRobot::sdkVersion
String sdkVersion()
查询xCoreSDK版本

rokae::clr::BaseRobot::getDO
bool getDO(unsigned int board, unsigned int port, [Out] ErrorCode^% ec)
查询数字输出量信号值

rokae::clr::BaseRobot::writeRegister
void writeRegister(System::String^ name, unsigned index, array< bool >^ value, [Out] ErrorCode^% ec)
写bool/bit类型寄存器数组

rokae::clr::BaseRobot::registerEnableSched
void registerEnableSched(bool enable, [Out] ErrorCode ^ % ec)
开始/停止预约.

rokae::clr::BaseRobot::unregisterSched
void unregisterSched(int sched_id, [Out] ErrorCode ^ % ec)
取消预约

rokae::clr::BaseRobot::executeCommand
void executeCommand(MoveCommand::Type type, List< MoveCommand^>^ cmd, [Out] ErrorCode^% ec)
执行单条或多条运动指令，调用后机器人立刻开始运动

rokae::clr::BaseRobot::setRailParameter
void setRailParameter(System::String^ name, double value, [Out] ErrorCode^% ec)
设置导轨参数

rokae::clr::BaseRobot::setTeachPendantMode
void setTeachPendantMode(bool enable, ErrorCode^% ec)
示教器热插拔。注：仅部分机型支持示教器热插拔，不支持的机型会返回错误码。不使用示教器后，使能按键和急停按键将失效。

rokae::clr::BaseRobot::readRegister
void readRegister(System::String^ name, List< int >^% value, [Out] ErrorCode^% ec)
读取int16/int32类型寄存器数组。

rokae::clr::BaseRobot::setDefaultZone
void setDefaultZone(int zone, [Out] ErrorCode^% ec)
设定默认转弯区。初始值为为0 (fine, 无转弯区)。该数值表示运动最大转弯区半径(单位:mm), 自动计算转弯百分比 转弯百分比划分4个范围: < 1 0 (fine) 1 ~ 20 10 % 20...

rokae::clr::BaseRobot::getRailParameter
void getRailParameter(System::String^ name, array< double >^% value, [Out] ErrorCode^% ec)
读取导轨软限位和运动范围

rokae::clr::BaseRobot::connectToRobot
void connectToRobot(String^ remoteIP, String^ localIP)
建立与机器人的连接。

rokae::clr::BaseRobot::writeRegister
void writeRegister(System::String^ name, unsigned index, array< float >^ value, [Out] ErrorCode^% ec)
写float类型寄存器数组。

rokae::clr::BaseRobot::getStateData
int getStateData(String^ name, array< double >^% data)
读取机器人状态数据,注意传入的data类型要和数据类型一致。 支持的数据名称及数组长度 关节角度[rad]"q_m" | DoF 关节速度[rad/s]"dq_m" | DoF 关节力矩[Nm]"tau...

rokae::clr::BaseRobot::importProject
void importProject(String^ file_path, bool overwrite, size_t max_size, [Out] ErrorCode^% ec)
从sdk导入RL工程（压缩包）

rokae::clr::BaseRobot::getSchedEnableStatus
bool getSchedEnableStatus([Out] ErrorCode ^ % ec)
获取工位预约的启用状态

rokae::clr::BaseRobot::setProjectRunningOpt
void setProjectRunningOpt(double rate, bool loop, [Out] ErrorCode^% ec)
更改工程的运行速度和循环模式

rokae::clr::BaseRobot::loadProject
void loadProject(String^ name, System::Collections::Generic::List< System::String^>^ tasks, [Out] ErrorCode^% ec)
加载工程

rokae::clr::BaseRobot::checkPath
array< double > checkPath(CartesianPosition^ start, array< double >^ start_joint, CartesianPosition^ aux1, CartesianPosition^ aux2, double angle, double rot_type, [Out] ErrorCode^% ec)
检验全圆轨迹是否可达

rokae::clr::BaseRobot::readRegister
void readRegister(System::String^ name, unsigned index, bool% value, [Out] ErrorCode^% ec)
读取bit/bool类型寄存器值。可读取单个寄存器，或按索引读取寄存器数组

rokae::clr::BaseRobot::checkPath
array< double > checkPath(CartesianPosition^ start, array< double >^ start_joint, CartesianPosition^ target, [Out] ErrorCode^% ec)
检验直线轨迹是否可达。支持导轨，返回的目标轴角为轴数+外部轴数

rokae::clr::BaseRobot::startJog
void startJog(JogSpace space, double rate, double step, unsigned index, bool direction, [Out] ErrorCode^% ec)
开始jog机器人，需要切换到手动操作模式。调用此接口并且机器人开始运动后，无论机器人是否已经自行停止，都必须调用stop()来结束jog操作，否则机器人会一直处于jog的运行状态。

rokae::clr::BaseRobot::arcwelding
ArcWelding arcwelding()
焊接工艺包类

rokae::clr::BaseRobot::powerState
PowerState powerState([Out] ErrorCode^% ec)
查询机器人上下电以及急停状态

rokae::clr::BaseRobot::connectToRobot
void connectToRobot([Out] ErrorCode^% ec)
连接到机器人。机器人地址为创建StandardRobot实例时传入的

rokae::clr::BaseRobot::jointTorque
array< double > jointTorque([Out] ErrorCode^% ec)
关节力传感器数值 [Nm]

rokae::clr::BaseRobot::clearSchedCount
void clearSchedCount([Out] ErrorCode ^ % ec)
清除累计执行次数

rokae::clr::BaseRobot::getRailParameter
void getRailParameter(System::String^ name, bool% value, [Out] ErrorCode^% ec)
读取导轨是否打开

rokae::clr::BaseRobot::setRailParameter
void setRailParameter(System::String^ name, int value, [Out] ErrorCode^% ec)
设置导轨参数

rokae::clr::BaseRobot::ppToMain
void ppToMain([Out] ErrorCode^% ec)
程序指针跳转到main。调用后，等待控制器解析完工程后返回，阻塞时间视工程大小而定，超时时间设定为10秒。

rokae::clr::BaseRobot::projectsInfo
List< RLProjectInfo^> projectsInfo([Out] ErrorCode^% ec)
查询工控机中RL工程名称及任务

rokae::clr::BaseRobot::readRegister
void readRegister(System::String^ name, unsigned index, float% value, [Out] ErrorCode^% ec)
读取float类型寄存器值。可读取单个寄存器，或按索引读取寄存器数组

rokae::clr::BaseRobot::schedAdvancedSetting
void schedAdvancedSetting(String^ cancelBehavior, [Out] ErrorCode ^ % ec)
高级设置

rokae::clr::BaseRobot::getSchedStatus
List< SchedStatus > getSchedStatus([Out] ErrorCode ^ % ec)
获取预约状态

rokae::clr::BaseRobot::moveStart
void moveStart([Out] ErrorCode^% ec)
开始/继续运动

rokae::clr::BaseRobot::clearServoAlarm
void clearServoAlarm([Out] ErrorCode^% ec)
清除伺服报警

rokae::clr::BaseRobot::calcIk
array< double > calcIk(CartesianPosition^ posture, [Out] ErrorCode^% ec)
根据位姿计算逆解

rokae::clr::BaseRobot::calcFk
CartesianPosition calcFk(array< double >^ joints, Toolset^ toolset, [Out] ErrorCode^% ec)
根据轴角度计算给定工具工件坐标系下正解

rokae::clr::BaseRobot::checkPath
array< double > checkPath(CartesianPosition^ start, array< double >^ start_joint, CartesianPosition^ aux, CartesianPosition^ target, [Out] ErrorCode^% ec)
检验圆弧轨迹是否可达

rokae::clr::BaseRobot::disconnectFromRobot
void disconnectFromRobot([Out] ErrorCode^% ec)
断开与机器人连接。断开前会停止机器人运动, 请注意安全。

rokae::clr::BaseRobot::toolset
Toolset toolset([Out] ErrorCode^% ec)
查询当前工具工件组信息.

rokae::clr::BaseRobot::setSimulationMode
void setSimulationMode(bool state, [Out] ErrorCode^% ec)
设置输入仿真模式

rokae::clr::BaseRobot::moveAppend
void moveAppend(MoveCommand::Type type, MoveCommand^ cmd, System::String^% cmdId, [Out] ErrorCode^% ec)
下发单条运动指令

rokae::clr::BaseRobot::writeRegister
void writeRegister(System::String^ name, unsigned index, bool value, [Out] ErrorCode^% ec)
写bool/bit类型寄存器值。可写入单个寄存器，或按索引写入寄存器数组中某一元素。

rokae::clr::BaseRobot::getAcceleration
void getAcceleration(double% acc, double% jerk, [Out] ErrorCode^% ec)
读取当前加/减速度和加加速度

rokae::clr::BaseRobot::getSchedSetting
SchedSetting getSchedSetting([Out] ErrorCode ^ % ec)
获取预约设置

rokae::clr::BaseRobot::setBaseFrame
void setBaseFrame(Frame^ frame, [Out] ErrorCode^% ec)
设置基坐标系, 设置后仅保存数值，重启控制器后生效

rokae::clr::BaseRobot::getSoftLimit
bool getSoftLimit(array< double, 2 >^% limits, [Out] ErrorCode^% ec)
获取当前软限位数值

rokae::clr::BaseRobot::setMaxCacheSize
void setMaxCacheSize(int number, [Out] ErrorCode^% ec)
设置最大缓存指令个数，指发送到控制器待规划的路径点个数，允许的范围[1,300]，初始值为30。

rokae::clr::BaseRobot::getStateData
int getStateData(String^ name, UInt64% data)
读取机器人状态数据 支持的数据名称 时间戳,精确到微秒"ts"

rokae::clr::BaseRobot::setDI
void setDI(unsigned int board, unsigned int port, bool state, [Out] ErrorCode^% ec)
设置数字量输入信号，仅当输入仿真模式打开时可以设置(见setSimulationMode())

rokae::clr::BaseRobot::toolsInfo
List< WorkToolInfo^> toolsInfo([Out] ErrorCode^% ec)
查询当前加载工程的工具信息

rokae::clr::BaseRobot::calibrateFrame
FrameCalibrationResult calibrateFrame(FrameType type, List< array< double >^>^ points, bool is_held, array< double >^ base_aux, [Out] ErrorCode^% ec)
坐标系标定 (N点标定).

rokae::clr::BaseRobot::adjustAcceleration
void adjustAcceleration(double acc, double jerk, [Out] ErrorCode^% ec)
调节运动加/减速度和加加速度。如果在机器人运动中调用，当前正在执行的指令不生效，下一条指令生效

rokae::clr::BaseRobot::moveReset
void moveReset([Out] ErrorCode^% ec)
运动重置, 清空已发送的运动指令, 清除执行信息。 Robot类在初始化时会调用一次运动重置。RL程序和SDK运动指令切换控制，需要先运动重置。

rokae::clr::BaseRobot::setEventWatcher
void setEventWatcher(Event eventType, EventCallbackDelegate^ callback, [Out] ErrorCode^% ec)
设置接收事件的回调函数。

rokae::clr::BaseRobot::moveAppend
void moveAppend(MoveCommand::Type type, List< MoveCommand^>^ cmd, System::String^% cmdId, [Out] ErrorCode^% ec)
添加单条或多条运动指令, 添加后调用moveStart()开始运动

rokae::clr::BaseRobot::setPowerState
void setPowerState(Boolean on, [Out] ErrorCode^% ec)
机器人上下电。注: 只有无外接使能开关或示教器的机器人才能手动模式上电。

rokae::clr::BaseRobot::unregisterAllSched
void unregisterAllSched([Out] ErrorCode ^ % ec)
取消所有预约

rokae::clr::BaseRobot::queryControllerLog
List< LogInfo^> queryControllerLog(unsigned count, LogInfo::Level level, [Out] ErrorCode^% ec)
查询控制器最新的日志

rokae::clr::BaseRobot::calcAllIkSolutions
array< array< double >^> calcAllIkSolutions(CartesianPosition^ posture, array< array< int >^>^% confs, [Out] ErrorCode^% ec)
计算笛卡尔位姿所有逆解结果。支持除xMateSR(XMS)之外的所有机型

rokae::clr::BaseRobot::getAI
double getAI(unsigned board, unsigned port, [Out] ErrorCode^% ec)
读取模拟量输入信号值

rokae::clr::BaseRobot::startReceiveRobotState
void startReceiveRobotState(int interval, array< System::String^>^ fields)
让机器人控制器开始发送实时状态数据。阻塞等待收到第一帧消息，超时时间为3秒

rokae::clr::BaseRobot::welding
Welding welding()
返回焊接类

rokae::clr::BaseRobot::setRailParameter
void setRailParameter(System::String^ name, bool value, [Out] ErrorCode^% ec)
打开关闭导轨

rokae::clr::BaseRobot::getStateData
int getStateData(String^ name, double% data)
读取机器人状态数据 支持的数据名称 臂角[rad]"psi_m"

rokae::clr::BaseRobot::setSoftLimit
void setSoftLimit(bool enable, array< double, 2 >^ limits, [Out] ErrorCode^% ec)
设置软限位。软限位设定要求： 打开软限位时，机械臂应下电且处于手动模式 软限位不能超过机械硬限位 机械臂当前各轴角度应在设定的限位范围内

rokae::clr::BaseRobot::setDefaultSpeed
void setDefaultSpeed(int speed, [Out] ErrorCode^% ec)
设定默认运动速度，初始值为100。该数值表示末端最大线速度(单位mm/s), 自动计算对应关节速度。 关节速度百分比划分为5个的范围: < 100 10% 100 ~ 200 30% 200 ~ 500...

rokae::clr::BaseRobot::setRailParameter
void setRailParameter(System::String^ name, System::String^ value, [Out] ErrorCode^% ec)
设置导轨名称

rokae::clr::BaseRobot::checkPath
int checkPath(array< double >^ start_joint, array< CartesianPosition^>^ targets, array< double >^% target_joint_calculated, [Out] ErrorCode^% ec)
校验多个直线轨迹

rokae::clr::BaseRobot::getRailParameter
void getRailParameter(System::String^ name, int% value, [Out] ErrorCode^% ec)
读取导轨参数

rokae::clr::BaseRobot::readRegister
void readRegister(System::String^ name, List< bool >^% value, [Out] ErrorCode^% ec)
读取bit/bool类型寄存器数组。

rokae::clr::BaseRobot::robotInfo
Info robotInfo([Out] ErrorCode^% ec)
查询机器人基本信息

rokae::clr::BaseRobot::setRailParameter
void setRailParameter(System::String^ name, array< double >^ value, [Out] ErrorCode^% ec)
设置导轨软限位和运动范围

rokae::clr::BaseRobot::queryEventInfo
EventInfo queryEventInfo(Event eventType, [Out] ErrorCode^% ec)
查询事件信息。

rokae::clr::BaseRobot::operateMode
OperateMode operateMode([Out] ErrorCode^% ec)
查询机器人当前操作模式

rokae::clr::BaseRobot::startReceiveRobotState_Nrt
void startReceiveRobotState_Nrt(int interval, List< String ^> ^ extend_fields, int port, [Out] ErrorCode^% ec)
打开机器人非实时状态数据发送功能。 与startReceiveRobotState()有所区别，这个状态数据是非实时的，通过TCP发送，机器人作为服务端，检测到 客户端连接后开始发送。发送的数据分为固定...

rokae::clr::BaseRobot::stop
void stop([Out] ErrorCode^% ec)
暂停机器人运动; 暂停后可调用moveStart()继续运动。若需要完全停止，不再执行已添加的指令，可调用moveReset()

rokae::clr::BaseRobot::writeRegister
void writeRegister(System::String^ name, unsigned index, Int32 value, [Out] ErrorCode^% ec)
写byte/int16/int32寄存器值。可写入单个寄存器，或按索引写入寄存器数组中某一元素。

rokae::clr::BaseRobot::registerSched
void registerSched(int sched_id, [Out] ErrorCode ^ % ec)
预约, 执行开始预约了之后才能预约

rokae::clr::BaseRobot::getSchedRegisterEnableStatus
bool getSchedRegisterEnableStatus([Out] ErrorCode ^ % ec)
获取是否开始预约

rokae::clr::BaseRobot::calcIk
array< double > calcIk(CartesianPosition^ posture, Toolset^ toolset, [Out] ErrorCode^% ec)
根据位姿计算给定工具工件坐标系下逆解

rokae::clr::BaseRobot::stopReceiveRobotState
void stopReceiveRobotState()
停止接收实时状态数据，同时控制器停止发送。可用于重新设置要接收的状态数据。

rokae::clr::BaseRobot::readRegister
void readRegister(System::String^ name, List< float >^% value, [Out] ErrorCode^% ec)
读取float类型寄存器数组。

rokae::clr::BaseRobot::getDI
bool getDI(unsigned int board, unsigned int port, [Out] ErrorCode^% ec)
查询数字量输入信号值

rokae::clr::CartesianPosition
笛卡尔点位
Definition: data_types_cli.hpp:322

rokae::clr::Cobot
协作机器人通用接口
Definition: robot_cli.hpp:1273

rokae::clr::Cobot::startRecordPath
void startRecordPath([Out] ErrorCode^% ec)
开始录制路径。录制的时长需要限制在30分钟以内, 此接口不会阻塞等待，录制完毕调用stopRecordPath()来停止录制

rokae::clr::Cobot::forceControl
ForceControl forceControl()
力控指令类

rokae::clr::Cobot::enableDrag
void enableDrag(DragOpt::Space space, DragOpt::Type type, [Out] ErrorCode^% ec)
打开拖动

rokae::clr::Cobot::XPRWModbusRTUCoil
void XPRWModbusRTUCoil(int slave_addr, int fun_cmd, int coil_addr, int num, array< bool >^% data_array, bool if_crc_reverse, [Out] ErrorCode^% ec)
通过xPanel末端读写modbus线圈或离散输入

rokae::clr::Cobot::setxPanelRS485
void setxPanelRS485(xPanelOpt::Vout opt, bool if_rs485, [Out] ErrorCode^% ec)
使用CR和SR末端的485通信功能，需要修改末端的参数配置，可通过此接口进行参数配置

rokae::clr::Cobot::calibrateForceSensor
void calibrateForceSensor(bool all_axes, int axis_index, [Out] ErrorCode^% ec)
力传感器标定。标定过程需要约100ms, 该函数不会阻塞等待标定完成。 标定前需要通过setToolset()设置正确的负载(Toolset.load), 否则会影响标定结果准确性。

rokae::clr::Cobot::getKeypadState
array< bool > getKeypadState([Out] ErrorCode^% ec)
获取末端按键状态，不支持的机型会返回错误码。

rokae::clr::Cobot::queryPathLists
List< String^> queryPathLists([Out] ErrorCode^% ec)
查询已保存的所有路径名称

rokae::clr::Cobot::disableDrag
void disableDrag([Out] ErrorCode^% ec)
关闭拖动

rokae::clr::Cobot::enableCollisionDetection
void enableCollisionDetection(array< double >^ sensitivity, StopLevel behaviour, double fallback_compliance, [Out] ErrorCode^% ec)
设置碰撞检测相关参数, 打开碰撞检测功能。

rokae::clr::Cobot::stopRecordPath
void stopRecordPath([Out] ErrorCode^% ec)
停止录制路径, 若录制成功(无错误码)则路径数据保存在缓存中

rokae::clr::Cobot::setxPanelVout
void setxPanelVout(xPanelOpt::Vout opt, [Out] ErrorCode^% ec)
设置xPanel对外供电模式。注：仅部分机型支持xPanel功能，不支持的机型会返回错误码

rokae::clr::Cobot::XPRS485SendData
void XPRS485SendData(int send_byte, int rev_byte, array< Byte >^ send_data, array< Byte >^% recv_data, [Out] ErrorCode^% ec)
通过xPanel末端直接传输RTU协议裸数据

rokae::clr::Cobot::removePath
void removePath(String^ name, bool removeAll, [Out] ErrorCode^% ec)
删除已保存的路径

rokae::clr::Cobot::saveRecordPath
void saveRecordPath(String^ name, String^ saveAs, [Out] ErrorCode^% ec)
保存录制好的路径

rokae::clr::Cobot::replayPath
void replayPath(String^ name, double rate, [Out] ErrorCode^% ec)
运动指令-路径回放。 和其它运动指令类似，调用replayPath之后，需调用moveStart才会开始运动。

rokae::clr::Cobot::cancelRecordPath
void cancelRecordPath([Out] ErrorCode^% ec)
取消录制, 缓存的路径数据将被删除

rokae::clr::Cobot::XPRWModbusRTUReg
void XPRWModbusRTUReg(int slave_addr, int fun_cmd, int reg_addr, String^ data_type, int num, array< int >^% data_array, bool if_crc_reverse, [Out] ErrorCode^% ec)
通过xPanel末端读写modbus寄存器

rokae::clr::Cobot::disableCollisionDetection
void disableCollisionDetection([Out] ErrorCode^% ec)
关闭碰撞检测功能

rokae::clr::Cobot::enableDrag
void enableDrag(DragOpt::Space space, DragOpt::Type type, bool enable_drag_button, [Out] ErrorCode^% ec)
打开拖动

rokae::clr::ErrorCode
xCoreSDK错误码
Definition: data_types_cli.hpp:23

rokae::clr::ForceControl
力控指令
Definition: force_control_cli.hpp:31

rokae::clr::FrameCalibrationResult
坐标系标定结果
Definition: data_types_cli.hpp:467

rokae::clr::Frame
坐标系
Definition: data_types_cli.hpp:284

rokae::clr::LogInfo::Level
Level
日志等级
Definition: data_types_cli.hpp:483

rokae::clr::MoveCommand
非实时运动指令
Definition: data_types_cli.hpp:367

rokae::clr::MoveCommand::Type
Type
指令类型
Definition: data_types_cli.hpp:372

rokae::clr::PCB3Robot
PCB3轴机型
Definition: robot_cli.hpp:1542

rokae::clr::PCB3Robot::~PCB3Robot
~PCB3Robot()
deconstructor
Definition: robot_cli.hpp:1559

rokae::clr::PCB3Robot::PCB3Robot
PCB3Robot()
默认构造，需调用connectToRobot(remoteIP)初始化

rokae::clr::PCB3Robot::PCB3Robot
PCB3Robot(String^ remoteIP)
创建机器人实例并建立连接

rokae::clr::PCB4Robot
PCB4轴机型
Definition: robot_cli.hpp:1566

rokae::clr::PCB4Robot::~PCB4Robot
~PCB4Robot()
deconstructor
Definition: robot_cli.hpp:1583

rokae::clr::PCB4Robot::PCB4Robot
PCB4Robot()
默认构造，需调用connectToRobot(remoteIP)初始化

rokae::clr::PCB4Robot::PCB4Robot
PCB4Robot(String^ remoteIP)
创建机器人实例并建立连接

rokae::clr::SchedSetting
预约设置, 支持8个预约设置项
Definition: data_types_cli.hpp:593

rokae::clr::StandardRobot
工业六轴机器人
Definition: robot_cli.hpp:1208

rokae::clr::StandardRobot::disableCollisionDetection
void disableCollisionDetection([Out] ErrorCode^% ec)
关闭碰撞检测功能

rokae::clr::StandardRobot::setAvoidSingularity
void setAvoidSingularity(AvoidSingularityMethod method, bool enable, double limit, [Out] ErrorCode^% ec)
打开/关闭奇异点规避功能。三种方式都支持

rokae::clr::StandardRobot::getAvoidSingularity
bool getAvoidSingularity(AvoidSingularityMethod method, [Out] ErrorCode^% ec)
查询是否处于规避奇异点的状态

rokae::clr::StandardRobot::StandardRobot
StandardRobot(String^ remoteIP, String^ localIP)
创建机器人实例并建立连接，适用机型: 工业六轴

rokae::clr::StandardRobot::StandardRobot
StandardRobot()
默认构造，需调用connectToRobot(remoteIP)初始化

rokae::clr::StandardRobot::enableCollisionDetection
void enableCollisionDetection(array< double >^ sensitivity, double fallback, [Out] ErrorCode^% ec)
设置碰撞检测相关参数, 打开碰撞检测功能。工业机型只支持stop1（安全停止）

rokae::clr::StandardRobot::StandardRobot
StandardRobot(String^ remoteIP)
创建机器人实例并建立连接，适用机型: 工业六轴

rokae::clr::Toolset
工具工件组信息, 根据一对工具工件的坐标、负载、机器人手持设置计算得出
Definition: data_types_cli.hpp:453

rokae::clr::Welding
Definition: welding_cli.hpp:99

rokae::clr::xMateCr5Robot
xMate五轴机器人5轴协作机器人, 包括 XMC17_5/XMC25_5
Definition: robot_cli.hpp:1511

rokae::clr::xMateCr5Robot::xMateCr5Robot
xMateCr5Robot()
默认构造，需调用connectToRobot(remoteIP)初始化

rokae::clr::xMateCr5Robot::~xMateCr5Robot
~xMateCr5Robot()
decosntructor
Definition: robot_cli.hpp:1536

rokae::clr::xMateCr5Robot::xMateCr5Robot
xMateCr5Robot(String^ remoteIP, String^ localIP)
创建机器人实例并建立连接

rokae::clr::xMateCr5Robot::xMateCr5Robot
xMateCr5Robot(String^ remoteIP)
创建机器人实例并建立连接

rokae::clr::xMateErProRobot
协作七轴机器人, 包括 xMateER3 Pro / xMateER7 Pro
Definition: robot_cli.hpp:1589

rokae::clr::xMateErProRobot::xMateErProRobot
xMateErProRobot(String^ remoteIP, String^ localIP)
创建机器人实例并建立连接

rokae::clr::xMateErProRobot::xMateErProRobot
xMateErProRobot(String^ remoteIP)
创建机器人实例并建立连接

rokae::clr::xMateErProRobot::xMateErProRobot
xMateErProRobot()
默认构造，需调用connectToRobot(remoteIP)初始化

rokae::clr::xMateErProRobot::~xMateErProRobot
~xMateErProRobot()
decosntructor
Definition: robot_cli.hpp:1614

rokae::clr::xMateRobot
xMate六轴机器人6轴协作机器人, 包括 xMateCR7/12, xMateSR3/4, xMateER3/7
Definition: robot_cli.hpp:1453

rokae::clr::xMateRobot::xMateRobot
xMateRobot()
默认构造，需调用connectToRobot(remoteIP)初始化

rokae::clr::xMateRobot::~xMateRobot
~xMateRobot()
decosntructor
Definition: robot_cli.hpp:1478

rokae::clr::xMateRobot::setAvoidSingularity
void setAvoidSingularity(AvoidSingularityMethod method, bool enable, double limit, [Out] ErrorCode^% ec)
打开/关闭奇异点规避功能。只适用于部分机型: 四轴锁定支持xMateCR和xMateSR机型 牺牲姿态支持所有协作六轴机型 轴空间插补不支持

rokae::clr::xMateRobot::getAvoidSingularity
bool getAvoidSingularity(AvoidSingularityMethod method, [Out] ErrorCode^% ec)
查询是否处于规避奇异点的状态

rokae::clr::xMateRobot::xMateRobot
xMateRobot(String^ remoteIP, String^ localIP)
创建机器人实例并建立连接

rokae::clr::xMateRobot::xMateRobot
xMateRobot(String^ remoteIP)
创建机器人实例并建立连接

data_types_cli.hpp

rokae::clr::OperationState
OperationState
机器人工作状态
Definition: data_types_cli.hpp:79

rokae::clr::FrameType
FrameType
笛卡尔空间坐标系类型
Definition: data_types_cli.hpp:169

rokae::clr::StopLevel
StopLevel
机器人停止运动等级
Definition: data_types_cli.hpp:119

rokae::clr::CoordinateType
CoordinateType
位姿坐标系类型
Definition: data_types_cli.hpp:109

rokae::clr::JogSpace
JogSpace
Jog选项: 坐标系
Definition: data_types_cli.hpp:147

rokae::clr::MotionControlMode
MotionControlMode
SDK运动控制模式
Definition: data_types_cli.hpp:133

rokae::clr::AvoidSingularityMethod
AvoidSingularityMethod
奇异规避方式
Definition: data_types_cli.hpp:229

rokae::clr::PowerState
PowerState
机器人上下电及急停状态
Definition: data_types_cli.hpp:51

rokae::clr::OperateMode
OperateMode
机器人操作模式
Definition: data_types_cli.hpp:67

rokae::clr::Event
Event
事件类型
Definition: data_types_cli.hpp:246

force_control_cli.hpp

rokae::clr::DragOpt::Space
Space
Definition: data_types_cli.hpp:191

rokae::clr::DragOpt::Type
Type
Definition: data_types_cli.hpp:197

rokae::clr::Info
机器人基本信息，在与建立机器人连接后加载
Definition: data_types_cli.hpp:268

rokae::clr::xPanelOpt::Vout
Vout
xPanel对外供电模式
Definition: data_types_cli.hpp:214