cmt3.h

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#ifndef _CMT_MONOLITHIC
/*! \file
        \brief        Contains the CMT Level 3 interface

        This level contains the high level message interfaces of Cmt.
        All code should be OS-independent.

        \section FileCopyright Copyright Notice 
        Copyright (C) Xsens Technologies B.V., 2006.  All rights reserved.

        This source code is intended for use only by Xsens Technologies BV and
        those that have explicit written permission to use it from
        Xsens Technologies BV.

        THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY
        KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
        IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A
        PARTICULAR PURPOSE.
*/
#endif
#ifndef _CMT3_H_2006_04_14
#define _CMT3_H_2006_04_14

#ifndef _CMT_MONOLITHIC
#        include "cmt2.h"
#        include "cmtpacket.h"
#endif

namespace xsens {

//////////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////// Cmt3  /////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////////////////


/*! \brief High-level communication class.

        The class uses CMT level 2, but does not inherit from it. If software needs to access 
        the level 2 components, it needs to be done through the getCmt2s() and getCmt2f() functions.
        
        All device identification is done through device Ids in CMT level 3.
*/
class Cmt3 {
//// data & structures ////
protected:
        Cmt2s m_serial;                                        //!< The (optional) CMT level 2 serial object that this class operates on.
        Cmt2f m_logFile;                                //!< The (optional) CMT level 2 logfile object that this class operates on. 
        double m_rtcMsPerSample;                //!< ms per sample = 1000 / sample frequency.
        //double m_sampleFrequency;                //!< The sample frequency of the port, computed from sampling period and output skip factor.
        uint16_t m_period;                                //!< The sample period of the port.
        uint16_t m_skip;                                //!< The skip factor of the port.
        TimeStamp m_rtcStart;                        //!< The start of the RTC counter, the time of arrival of sample 0.
        uint32_t m_rtcCount;                        //!< The long sample counter (normal counter wraps at 64k).
#ifdef _CORRECT_FOR_CLOCK_MISMATCH
        uint32_t m_lastToaTouch;                //!< The sample counter of the last sample that touched the Time Of Arrival
#endif
        CmtMtTimeStamp m_rtcLastSc;                //!< The last received sample counter, used to determine wrap-around.
        uint32_t m_baudrate;                //!< The baudrate that was last set to be used by the port.
        uint32_t m_timeoutConf;        //!< The config mode timeout.
        uint32_t m_timeoutMeas;                        //!< The measurement mode timeout.
        mutable XsensResultValue m_lastResult;        //!< The last result of an operation.
        uint16_t m_firstItem;                                //!< The index of the first formatting item.
        uint16_t m_gotoConfigTries;                //!< The number of times a goto config is attempted before the function fails.
        bool m_measuring;                                                //!< Keeps track of whether the connected device is measuring or being configured.
        bool m_detailedScan;                        //!< Automatically scan for device details during open. Default is true (recommended).
        bool m_readFromFile;                        //!< Indicates whether to read from the log file or from the serial port.
        bool m_rtcInitialized;                        //!< Indicates if the rtc is initialised or not.
        bool m_logging;                                                        //!< Indicates whether to write all received messages to the logfile or not, automatically set to true by createLogFile.
        XsensResultValue m_lastHwError;                        //!< Contains the last error reported by hardware.
        CmtDeviceId m_lastHwErrorDeviceId;                //!< Contains the Device ID of the device that caused the last hardware error.

        uint32_t m_readBufSize;                                        //!< Contains the size of the serial read buffer
        uint32_t m_writeBufSize;                                //!< Contains the size of the serial write buffer

public:
        bool m_useRtc;                                        //!< Indicates if the RTC should be computed or not (to save CPU time).
        void* m_eMtsData[CMT_MAX_DEVICES_PER_PORT];                //!< Cached eMTS data.
        CmtDeviceConfiguration m_config;                                //!< Cached configuration data.

//// functions ///////////////////////////////////////////////////////////////////////////////////
protected:
        Cmt3(const Cmt3& ref);                        //!< This object cannot be copied, so this function is not implemented.
        void fillRtc(Packet* pack);                                                                                //!< Internal function to compute the RTC value.
        uint8_t getBusIdInternal(const CmtDeviceId devId) const;        //!< \brief Find a device Id in the list and return its busId. \details CmtDeviceId 0= busId 0= broadcast. A CMT_BID_INVALID value is also possible and indicates that the devId was not found.

public:
                
        Cmt3();                //!< Default constructor, initializes all members to their default values.
        ~Cmt3();        //!< Destructor, de-initializes, frees memory allocated for buffers, etc.

        XsensResultValue closePort(bool gotoConfigFirst=true);                                                        //!< \brief Close the communication port. \details This function places the device in configuration mode and closes the communication port, ending all further communication with the device.
        XsensResultValue getBatteryLevel(uint8_t& level);                //!< \brief Get an Xbus Master's battery level. \details The battery level is a value between 0 and 255 that indicates the voltage of the batteries. The scale is not linear and the values should not be used as an absolute voltage. The amount of time remaining for measurement given any battery level greatly depends on the type of batteries used, the number of sensors attached to the Xbus Master and the used output options.
        XsensResultValue getBaudrate (uint32_t& baudrate);                //!< \brief Get the baudrate used by a port. \details This function returns the baud rate at which the port is currently connected. The function will return an error when no port is connected. \see getSerialBaudrate setSerialBaudrate setBaudrate
        XsensResultValue getBluetoothState(bool& enabled);                                                                                                                //!< \brief Get the state of the bluetooth communication. \details This function tells whether the Bluetooth connection of the Xbus Master is on (1) or off (0). \note This function is only valid in configuration mode.
        XsensResultValue getBusId (uint8_t& busId, const CmtDeviceId deviceId = CMT_DID_MASTER) const;        //!< \brief Retrieve the BusId of a device. \details The function checks its internal list for a match of deviceId. If it is found, the corresponding BusId is returned in busId. Otherwise, a 0 is placed in busId and XRV_NOTFOUND result is returned.
        XsensResultValue getBusPowerState(bool& enabled);                                                                                                                //!< \brief Get the state of the Xbus power. \details This function tells whether the Xbus of the connected Xbus Master is currently switched on (1) or not (0). When it is switched off, the attached MT devices have no power and communication with them is not possible. Before going to measurement mode, use setBusPowerState to restore power. \see setBusPowerState \note This function is only valid in configuration mode.

        Cmt2f* getCmt2f(void);        //!< \brief Return a reference to the embedded Cmt2f (logfile) object. \details Any manipulation of the object should be done through Cmt3. Cmt3's integrity is not guaranteed if the Cmt2f object is manipulated directly. \see refreshCache
        Cmt2s* getCmt2s(void);        //!< \brief Return a reference to the embedded Cmt2s (comm port) object. \details Any manipulation of the object should be done through Cmt3. Cmt3's integrity is not guaranteed if the Cmt2s object is manipulated directly. \see refreshCache

        XsensResultValue getConfiguration(CmtDeviceConfiguration& configuration);                                                                //!< \brief Get device configuration. \details This function retrieves the complete device configuration of a single device. \note This information is cached by Cmt3, so it is available in measurement mode.
        XsensResultValue getDataLength(uint32_t& length, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Retrieve data size. \details This function retrieves the number of bytes that are in a data message as sent by the given device.
        uint32_t getDeviceCount(void) const;                                                                                                                                //!< \brief Retrieve total device count. \details This function retrieves the total number of connected (master + slave) devices or 0 if not connected.
        XsensResultValue getDeviceId(const uint8_t busId, CmtDeviceId& deviceId) const;                                        //!< \brief Retrieve the DeviceId of a device given its Bus ID. \details This function retrieves the DeviceId for the device with the given Bus ID. When no devices are connected, a 0 ID is supplied.
        XsensResultValue getDeviceMode(CmtDeviceMode& mode, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Return device mode. \details This function retrieves the output-related settings of the device, such as the sample rate and output settings. \see setDeviceMode \note This function actually reads the device mode from the cached configuration, so it is available in measurement mode. \see refreshCache
        XsensResultValue getDeviceMode2(CmtDeviceMode2& mode, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Return device mode2. \details This function retrieves the output-related settings of the device, such as the period, skip factor and output settings. \see setDeviceMode \note This function actually reads the device mode from the cached configuration, so it is available in measurement mode. \see refreshCache
        XsensResultValue getEMtsData(void* buffer, const CmtDeviceId deviceId = CMT_DID_MASTER);                                //!< \brief Retrieve the eMts data of the specified sensor(s). \details This function can be used to read proprietary data from one or more Motion Trackers. This data is required by higher level functions in combination with Configuration data to convert Raw data into Calibrated and Orientation data. The eMTs data is quite large, but it is cached. The first request should be done in configuration mode, but following requests can be done in measurement mode. When requesting eMTS data for a single sensor, the buffer should be at least CMT_EMTS_SIZE bytes long. When using CMT_DID_BROADCAST, the eMTS data of all connected sensors is placed into the buffer sequentially. In the latter case, the buffer should be able to hold at least sensorcount * CMT_EMTS_SIZE bytes.
        XsensResultValue getErrorMode(uint16_t& mode, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Return the error mode of the device. \details This function returns the error mode of the device. The error mode determines how the device handles errors. See the low-level communication documentation for more details. \see setErrorMode \note This function is only valid in configuration mode.
        XsensResultValue getFirmwareRevision(CmtVersion& revision, const CmtDeviceId deviceId = CMT_DID_MASTER);//!< \brief Return Firmware revision. \details This function retrieves the firmware version that is currently installed in the device. \note This function is only valid in configuration mode.
        XsensResultValue getHeading(double& heading, const CmtDeviceId deviceId = CMT_DID_MASTER);                                //!< \brief Return the heading offset. \details This function retrieves the heading offset in radians used by the device. The valid range is -pi to +pi. The heading offset is used as a final correction on the output orientation. \see setHeading getMagneticDeclination setMagneticDeclination \note This function is only valid in configuration mode.

        XsensResultValue getLastResult(void) const                                //!< \brief Return the error code of the last user function call.
                { return m_lastResult; }
        XsensResultValue getHwError(CmtDeviceId& did) const                //!< \brief Return the last Hardware error code. \details This function returns the XsensResultValue of the last problem reported by hardware (if any). Hardware problems are all 'error' messages returned by a sensor. \param did If any problems were found, the responsible device ID will be returned in this parameter. \see clearHwError
                { did = m_lastHwErrorDeviceId; return m_lastHwError; }
        void clearHwError(void)                                                                        //!< \brief Reset the hardware error code. \details Use this function to reset the hardware error code reported by getHwError. \see getHwError
                { m_lastHwErrorDeviceId = 0; m_lastHwError = XRV_OK; }

        XsensResultValue getLatLonAlt(CmtVector& lla, const CmtDeviceId deviceId = CMT_DID_MASTER);                                        //!< \brief Retrieve the last stored sensor position. \details This function retrieves the last stored position in latitude, longitude, altitude. \see setLatLonAlt
        XsensResultValue getLocationId (uint16_t& locationId, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Return the location ID of a sensor. \details This function retrieves the location ID stored in the device. \see setLocationId \note This function is only valid in configuration mode.
        XsensResultValue getLogFileReadPosition(CmtFilePos& pos);                                                                                                        //!< \brief Retrieve the read position of the log file. \details This function will return the current read position in the open log file in bytes from the start. \note The read and write positions of log files are completely independent of each other. \remarks To change the read position, either use resetLogFileReadPos or manipulate the log file through getCmt2f. \see resetLogFileReadPos getCmt2f

        XsensResultValue getLogFileSize(CmtFilePos& size);                                                                                                                        //!< \brief Retrieve the size of the open log file in bytes.
        XsensResultValue getLogFileName(char* filename);                                                                                                                        //!< \brief Retrieve the name of the open log file or an empty string if no logfile is open
        XsensResultValue getLogFileName(wchar_t* filename);                                                                                                                        //!< \brief Retrieve the name of the open log file or an empty string if no logfile is open
        XsensResultValue getMagneticDeclination(double& declination, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Return the stored magnetic declination. \details This function retrieves the stored local magnetic declination in radians. The valid range is -pi to +pi. The magnetic declination is used in the sensor fusion process to determine the output orientation. \see getHeading setHeading setMagneticDeclination \note This function is only valid in configuration mode.
        CmtDeviceId getMasterId(void);                                                                                                                                                                //! \brief Return the device Id of the first device (master). \details \note The deviceId is read from the cached configuration data, so it is also available in measurement mode.

        const uint16_t getMtCount(void) const;                                                                                                        //!< \brief Retrieve number of MT devices. \details This function will return the number of connected MT devices. Effectively, this returns the device count minus any Xbus Masters.
        XsensResultValue getMtDeviceId(const uint8_t index, CmtDeviceId& deviceId) const;                        //! \brief Return the device Id of an MT device. \details This function returns the ID of the index'th MT (non-Xbus Master) device connected to this object. \note The deviceId is read from the cached configuration data, so it is also available in measurement mode.
        XsensResultValue getObjectAlignmentMatrix(CmtMatrix& matrix, const CmtDeviceId deviceId = CMT_DID_MASTER);                                        //!< \brief Retrieve the last stored object alignment matrix. \details Use this function to get the object matrix currently used as the sensor frame with respect to the reference frame. See the manual for more information on coordinate systems and object resets. \see setObjectAlignmentMatrix
        XsensResultValue getPortNr(uint16_t& port) const;                                                                                        //!< \brief Return the port number that this object is connected to. \details If CMT is reading from a log file, an error will be returned.
        XsensResultValue getProductCode(char* productCode, const CmtDeviceId deviceId = CMT_DID_MASTER);//!< \brief Return product code. \details This function retrieves the product code of the given device. \param productCode The buffer that will store the product code. This buffer should be at least 20 bytes. \remarks The product code is NOT necessarily NULL-terminated. If it is less than 20 characters it will be, but if the product code is 20 characters it won't be. The recommended method is to create a buffer that is 21 bytes long and set the last byte to 0 before calling this function. \note This function is only valid in configuration mode.
        XsensResultValue getProcessingFlags (uint16_t& processingFlags, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Return the processing flags of a sensor. \details This function retrieves the processing flags stored in the device. \see setProcessingFlags \note This function is only valid in configuration mode.
        uint16_t getSampleFrequency(void);                                                                                                                //!< \brief Return current sample frequency. \details This function determines the sample frequency of the device from the cached sample rate and skip factor and returns it. For devices connected to an Xbus Master, the values used by the Xbus Master are returned. \see setDeviceMode getDeviceMode
        XsensResultValue getSerialBaudrate(uint32_t& baudrate);                //!< \brief Return the baud rate used for serial communication. \details This function retrieves the baud rate that is used when the device is connected by a serial connection. In most cases this is the same as getBaudrate, but when an Xbus Master is connected by a Bluetooth connection, it doesn't have to be. \see setSerialBaudrate setBaudrate getBaudrate \note This function is only valid in configuration mode.
        XsensResultValue getSyncInSettings(CmtSyncInSettings& settings);        //!< \brief Retrieve the inbound synchronization settings of the master MT device. \details This function retrieves the current inbound synchronization settings of the master MT device (sync mode, skip factor and offset). This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncInSettings getSyncOutSettings setSyncOutSettings getSyncMode setSyncMode \note This function is only valid in configuration mode.
        XsensResultValue getSyncInMode(uint16_t& mode);                                                                                                        //!< \brief Retrieve the inbound synchronization mode of an MT device. \details This function retrieves the current inbound synchronization mode of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncInMode setSyncInSettings getSyncInSettings getSyncInSkipFactor setSyncInSkipFactor getSyncInOffset setSyncInOffset getSyncOutSettings setSyncOutSettings getSyncMode setSyncMode
        XsensResultValue getSyncInSkipFactor(uint16_t& skipFactor);                                                                                //!< \brief Retrieve the inbound synchronization skip factor of an MT device. \details This function retrieves the current inbound synchronization skip factor of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncInSkipFactor setSyncInSettings getSyncInSettings getSyncInOffset setSyncInOffset getSyncOutSettings setSyncOutSettings getSyncMode setSyncMode
        XsensResultValue getSyncInOffset(uint32_t& offset);                                                                                                //!< \brief Retrieve the inbound synchronization offset of an MT device. \details This function retrieves the current inbound synchronization offset of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncInOffset setSyncInSettings getSyncInSettings getSyncInSkipFactor setSyncInSkipFactor getSyncOutSettings setSyncOutSettings getSyncMode setSyncMode
        XsensResultValue getSyncMode(uint8_t& mode);                                        //!< \brief Retrieve the sync mode of the Xbus Master. \details This function requests the current synchronization mode used by the specified Xbus Master. This function is not valid for MT devices. \see setSyncMode getSyncInSettings setSyncInSettings getSyncOutSettings setSyncOutSettings \note This function is only valid in configuration mode.
        XsensResultValue getSyncOutSettings(CmtSyncOutSettings& settings);        //!< \brief Retrieve the outbound synchronization settings of the master MT device. \details This function retrieves the current outbound synchronization settings of the MT device (sync mode, skip factor, offset and pulse width). This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncOutSettings getSyncInSettings setSyncInSettings getSyncMode setSyncMode \note This function is only valid in configuration mode.
        XsensResultValue getSyncOutMode(uint16_t& mode);                                                                                                                                                //!< \brief Retrieve the outbound synchronization mode of an MT device. \details This function retrieves the current outbound synchronization mode of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncOutMode setSyncOutSettings getSyncOutSettings getSyncOutPulseWidth setSyncOutPulseWidth getSyncOutSkipFactor setSyncOutSkipFactor getSyncOutOffset setSyncOutOffset getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        XsensResultValue getSyncOutPulseWidth(uint32_t& pulseWidth);                                                                                                                                //!< \brief Retrieve the outbound synchronization pulse width of an MT device. \details This function retrieves the current outbound synchronization pulse width of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncOutPulseWidth setSyncOutSettings getSyncOutSettings setSyncOutMode getSyncOutMode getSyncOutSkipFactor setSyncOutSkipFactor getSyncOutOffset setSyncOutOffset getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        XsensResultValue getSyncOutSkipFactor(uint16_t& skipFactor);                                                                                                                        //!< \brief Retrieve the outbound synchronization skip factor of an MT device. \details This function retrieves the current outbound synchronization skip factor of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see stSyncOutSkipFactor setSyncOutSettings getSyncOutSettings setSyncOutMode getSyncOutMode getSyncOutPulseWidth setSyncOutPulseWidth getSyncOutOffset setSyncOutOffset getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        XsensResultValue getSyncOutOffset(uint32_t& offset);                                                                                                                                                //!< \brief Retrieve the outbound synchronization offset of an MT device. \details This function retrieves the current outbound synchronization offset of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncOutOffset setSyncOutSettings getSyncOutSettings setSyncOutMode getSyncOutMode getSyncOutPulseWidth setSyncOutPulseWidth getSyncOutSkipFactor setSyncOutSkipFactor getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        uint32_t getTimeoutConfig(void) const;                                                        //!< \brief Return the configuration mode timeout. \details When in config mode, the system uses a different message timeout than in measurement mode, since configuration messages can take longer to process than measurement mode messages. This function can be used to determine the current config mode timeout in ms. \see setTimeoutConfig getTimeoutMeasurement setTimeoutMeasurement
        uint32_t getTimeoutMeasurement(void) const;                                                        //!< \brief Return the measurement mode timeout. \details When in measurement mode, the system uses a different message timeout than in config mode, since measurement mode messages should be faster to process than config mode messages. This function can be used to determine the current measurement mode timeout in ms. \see setTimeoutMeasurement getTimeoutConfig setTimeoutConfig
        XsensResultValue getTransmissionDelay(uint16_t& delay, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Return the RS485 acknowledge transmission delay of the device. \details This function returns the RS485 acknowledge transmission delay of the device. The RS485 acknowledge transmission delay determines the minimal delay to response on request messages. See the low-level communication documentation for more details. \see setAckTransmissionDelay \note This function is only valid in configuration mode.
        XsensResultValue getUtcTime(CmtUtcTime& utc, const CmtDeviceId deviceId);        //!< \brief Return the UTC time of the last received sample. \details This function is only valid for MTi-G sensors. In measurement mode it will retrieve the UTC time of the last received sample. In Config mode, it will retrieve the most recent UTC time. In config mode, the time returned will be requested diectly from the GPS subsystem, with several layers of messaging between the original source and the host. In measurement mode, the UTC time is requested from the GPS subsystem periodically and estimated (with a very high precision) for the remaining samples. So in config mode, the time will probably jitter more than in measurement mode.
        XsensResultValue getXmOutputMode(uint8_t& mode);                                                //!< \brief Return the dual-output mode of the XM. \details This function retrieves the dual mode output mode of the Xbus Master. The dual output mode of the Xbus Master defines whether it will send data on the serial connection (at the same baud rate as the bluetooth connection) when it is connected via Bluetooth. When set to 0, the serial communication is disabled, data is sent over the serial bus. \note When dual-mode is enabled, the Xbus Master will NOT receive command messages on the serial bus. \see setXmOutputMode
        XsensResultValue gotoConfig(void);                                                                        //!< \brief Place all connected devices into Configuration Mode. \details This function places the sensors in configuration mode. \note This function has no effect when reading from a log file
        XsensResultValue gotoMeasurement(void);                                                                //!< \brief Place all connected devices into Measurement Mode. \details This function places the sensors in measurement mode. \note This function has no effect when reading from a log file
        XsensResultValue initBus(void);                                                                                //!< \brief Perform an initBus request. \details See the low-level documentation for more information on the InitBus message. \see refreshCache setBusPowerState
        bool isLogging(void) const                        //!< \brief Return whether the Cmt3 object is writing to a log file or not
                { return m_logging; }
        bool isPortOpen(void) const                        //!< \brief Return whether the communication port is open or not.
                { return (m_serial.isOpen()); }
        bool isXm(void) const;                                //!< \brief Return whether the main device is an Xbus Master or not.

        XsensResultValue openPort(const char *portName, const uint32_t baudRate = CMT_DEFAULT_BAUD_RATE,
                                                        uint32_t readBufSize = CMT_DEFAULT_READ_BUFFER_SIZE,
                                                        uint32_t writeBufSize = CMT_DEFAULT_WRITE_BUFFER_SIZE);        //! \brief Open a communication channel to the given COM port number. \details This function is first passed through to the Cmt2s object. Then, the device settings are retrieved and stored locally. This function automatically places the device(s) in config mode, using gotoConfig. \see gotoConfig closePort
#ifdef _WIN32
        XsensResultValue openPort(const uint32_t portNumber, const uint32_t baudRate = CMT_DEFAULT_BAUD_RATE,
                                                        uint32_t readBufSize = CMT_DEFAULT_READ_BUFFER_SIZE,
                                                        uint32_t writeBufSize = CMT_DEFAULT_WRITE_BUFFER_SIZE);        //! \brief Open a communication channel to the given COM port number. \details This function is first passed through to the Cmt2s object. Then, the device settings are retrieved and stored locally. This function automatically places the device(s) in config mode, using gotoConfig. \see gotoConfig closePort
#endif
        XsensResultValue peekLogMessageId(uint8_t& messageId);                                                                                                                //!< \brief Peek(take a look) at the message ID of the next message. \details This function can only be used when reading from a log file. It will find the next message in the file and place its message ID in the messageId parameter. Afterwards, the read position of the file will be restored. \remarks This function is mostly useful when dealing with a file that has more than just data messages. By using the peek function, it is possible to decide whether a readDataPacket should be called or for example getBatteryLevel or getGpsStatus. When the peek function is not used and for example getBatteryLevel is called, all messages between the current read position and the first battery level message in the file will be skipped. An alternative would be to get the read position, call the desired function (get battery level) and restore the read position, but then the moment at which the (battery level, UTC time, satellite info, etc) data becomes available will not be known.
        XsensResultValue readDataPacket (Packet* pack, bool acceptOther = false);                                                                                //!< \brief Retrieve a data message. \details This function will attempt to read a data message from the open port or from the log file, depending on the system state. When acceptOther is set to true, the first received message will be returned. If a data message is successfully read, XRV_OK will be returned. If another message is read, XRV_OTHER will be returned and the received message will be placed in the Packet. Otherwise, an appropriate error will be returned.
        XsensResultValue requestData(Packet* pack, const uint8_t *data = 0, const uint16_t count = 0);                                        //!\brief Request a data message and wait for it to arrive. \details This function is only useful when the skip factor is set to 0xFFFF.
        XsensResultValue reset(void);                                                                                                                                                                        //!< \brief Reset all connected sensors.
        XsensResultValue resetOrientation(const CmtResetMethod method, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Perform an orientation reset on a device. \details This function performs an orientation reset. See the MT documentation for more information about Orientation resets. \note If you wish to save the setting to the device, perform the CMT_RESETORIENTATION_STORE operation while in Config mode after having performed the appropriate orientation reset in measurement mode.
        XsensResultValue setNoRotation(const uint16_t duration, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Initiates the XKF3 'no rotation' update procedure. \details This function Initiates the XKF3 'no rotation' update procedure. See the MT documentation for more information. \note Note that this message does not convey any status. Bits 3-4 of the MT status byte are used instead. Only valid in measurement mode.
        XsensResultValue restoreFactoryDefaults(const CmtDeviceId deviceId = CMT_DID_MASTER);                                                        //!< \brief Restore the device to factory default settings. \details This function completely restores the selected device to the default settings (115k2 baud rate, 100Hz sample frequency, factory defined scenarios). \note This function is only available in configuration mode.
        XsensResultValue setBaudrate (const uint32_t baudrate, bool reconnect = true);                                                                //!< \brief Set the baudrate and possibly reconnect. \details Use this function to change the baudrate of the device. This actually tries to change the baud rate of the current connection. When reconnect is set to true, the device receives a Reset message and the port is reopened at the new baudrate. Otherwise, make sure to perform a Reset manually, since the new baudrate will not be set until a Reset has been performed. \note To change the baudrate of the serial connection while connected via Bluetooth, use setSerialBaudrate. \see getBaudrate setSerialBaudrate getSerialBaudrate \note This function is only available in configuration mode.
        XsensResultValue setBluetoothState(const bool enabled);                                                                                                                        //!< \brief Set the Bluetooth state of the Xbus Master. \details This function sets the state of the bluetooth communication to on or off. \note This function is only available in configuration mode.
        XsensResultValue setBusPowerState(const bool enabled);                                                                                                                                        //!< \brief Switch the Xbus Master bus power on or off. \details Use this function to switch the Xbus Master Xbus power on or off. \remarks This function can be used to save a lot of power when not measuring, while still keeping a connection to the system. However, there is a relatively long startup time when restoring power as the sensors are reinitialized. \note You will need to perform an initBus and possibly a refreshCache call after switching the power back on with this function. \note This function is only available in configuration mode. \see initBus refreshCache
        XsensResultValue setDeviceMode (const CmtDeviceMode& mode, bool force, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Set the complete output mode of a device. \details This function updates the complete output mode of the specified device. It only updates values that are different than those reported by the device unless force is set to true. The function will automatically update only the part of the device mode that is relevant for the device. So it is possible to configure all devices, including an Xbus Master with the same mode (only the Xbus Master will update its period, while the Motion Trackers will update their output mode and settings). \note This function is only available in configuration mode. \see getDeviceMode getDeviceMode2 setDeviceMode2
        XsensResultValue setDeviceMode2 (const CmtDeviceMode2& mode, bool force, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Set the complete output mode2 of a device. \details This function updates the complete output mode of the specified device. It only updates values that are different than those reported by the device unless force is set to true. The function will automatically update only the part of the device mode that is relevant for the device. So it is possible to configure all devices, including an Xbus Master with the same mode (only the Xbus Master will update its period, while the Motion Trackers will update their output mode and settings). \note This function is only available in configuration mode. \see getDeviceMode2 getDeviceMode setDeviceMode
        XsensResultValue setErrorMode(const uint16_t mode);                                                                                                                                //!< \brief Set the error mode of the device. \details This function sets the error mode of the device. The error mode determines how the device handles errors. See the low-level communication documentation for more details. \note This function is only available in configuration mode. \see getErrorMode
        XsensResultValue setGotoConfigTries(const uint16_t tries);                                                                                                //!< \brief Set the number of times the gotoConfig function will attempt a gotoConfig before failing. \details This is especially useful when using RS485 communication or when for some reason the communication lines are not reliable.
        XsensResultValue setHeading (const double heading, const CmtDeviceId deviceId = CMT_DID_MASTER);                                //!< \brief Set the heading offset. \details This function sets the heading offset in radians used by the device. The valid range is -pi to +pi. The heading offset is used as a final correction on the output orientation. \note This function is only available in configuration mode. \see getHeading getMagneticDeclination setMagneticDeclination
        XsensResultValue setLatLonAlt(const CmtVector& lla, const CmtDeviceId deviceId = CMT_DID_MASTER);                        //!< \brief Set the current sensor position. \details Use this function to set the current position in latitude, longitude, altitude. \see getLatLonAlt
        XsensResultValue setLocationId (uint16_t locationId, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Set the location ID of a sensor. \details This function sets the location ID stored in the device. \note This function is only available in configuration mode. \see getLocationId
        XsensResultValue setMagneticDeclination(const double declination, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Set the stored magnetic declination. \details This function sets the stored local magnetic declination in radians. The valid range is -pi to +pi. The magnetic declination is used in the sensor fusion process to determine the output orientation. \note This function is only available in configuration mode. \see getHeading setHeading getMagneticDeclination
        XsensResultValue setObjectAlignmentMatrix(const CmtMatrix& matrix, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Set the currently used object alignment matrix. \details Use this function to set the object matrix to be used as the sensor frame with respect to the reference frame. See the manual for more information on coordinate systems and object resets. \see getObjectAlignmentMatrix
        XsensResultValue setProcessingFlags (uint16_t processingFlags, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Set the processing flags of a sensor. \details This function sets the processing flags stored in the device. \note This function is only available in configuration mode. \see getProcessingFlags
        XsensResultValue setSyncInSettings(const CmtSyncInSettings& settings);                                                                                        //!< \brief Set the inbound synchronization settings of an MT device. \details This function sets the current inbound synchronization settings of the MT device (sync mode, skip factor and offset). This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \note This function is only available in configuration mode. \see getSyncInSettings getSyncOutSettings setSyncOutSettings getSyncMode setSyncMode
        XsensResultValue setSyncInMode (const uint16_t mode);                //!< \brief Set the inbound synchronization mode of an MT device. \details This function sets the current inbound synchronization mode of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see getSyncInMode setSyncInSettings getSyncInSettings getSyncInSkipFactor setSyncInSkipFactor getSyncInOffset setSyncInOffset getSyncOutSettings setSyncOutSettings getSyncMode setSyncMode
        XsensResultValue setSyncInSkipFactor (const uint16_t skipFactor);                //!< \brief Set the inbound synchronization skip factor of an MT device. \details This function sets the current inbound synchronization skip factor of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see getSyncInSkipFactor setSyncInSettings getSyncInSettings getSyncInOffset setSyncInOffset getSyncOutSettings setSyncOutSettings getSyncMode setSyncMode
        XsensResultValue setSyncInOffset (const uint32_t offset);                        //!< \brief Set the inbound synchronization offset of an MT device. \details This function sets the current inbound synchronization offset of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see getSyncInOffset setSyncInSettings getSyncInSettings getSyncInSkipFactor setSyncInSkipFactor getSyncOutSettings setSyncOutSettings getSyncMode setSyncMode
        XsensResultValue setSyncMode(const uint8_t mode);                                                //!< \brief Set the sync mode of the Xbus Master. \details This function sets the current synchronization mode used by the specified Xbus Master. This function is not valid for MT devices. \note This function is only available in configuration mode. \see getSyncMode getSyncInSettings setSyncInSettings getSyncOutSettings setSyncOutSettings
        XsensResultValue setSyncOutSettings(const CmtSyncOutSettings& settings);        //!< \brief Set the outbound synchronization settings of an MT device. \details This function sets the current outbound synchronization settings of the MT device (sync mode, skip factor, offset and pulse width). This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \note This function is only available in configuration mode. \see setSyncOutSettings getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        XsensResultValue setSyncOutMode (const uint16_t mode);                //!< \brief Set the outbound synchronization mode of an MT device. \details This function sets the current outbound synchronization mode of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see getSyncOutMode setSyncOutSettings getSyncOutSettings getSyncOutPulseWidth setSyncOutPulseWidth getSyncOutSkipFactor setSyncOutSkipFactor getSyncOutOffset setSyncOutOffset getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        XsensResultValue setSyncOutPulseWidth (const uint32_t pulseWidth);                //!< \brief Set the outbound synchronization pulse width of an MT device. \details This function sets the current outbound synchronization pulse width of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see getSyncOutPulseWidth setSyncOutSettings getSyncOutSettings setSyncOutMode getSyncOutMode getSyncOutSkipFactor setSyncOutSkipFactor getSyncOutOffset setSyncOutOffset getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        XsensResultValue setSyncOutSkipFactor (const uint16_t skipFactor);                //!< \brief Set the outbound synchronization skip factor of an MT device. \details This function sets the current outbound synchronization skip factor of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see setSyncOutSkipFactor setSyncOutSettings getSyncOutSettings setSyncOutMode getSyncOutMode getSyncOutPulseWidth setSyncOutPulseWidth getSyncOutOffset setSyncOutOffset getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        XsensResultValue setSyncOutOffset (const uint32_t offset);                //!< \brief Set the outbound synchronization offset of an MT device. \details This function sets the current outbound synchronization offset of the MT device. This function does not work for Xbus Masters and should not be used for sensors connected to an Xbus Master. \see getSyncOutOffset setSyncOutSettings getSyncOutSettings setSyncOutMode getSyncOutMode getSyncOutPulseWidth setSyncOutPulseWidth getSyncOutSkipFactor setSyncOutSkipFactor getSyncInSettings setSyncInSettings getSyncMode setSyncMode
        XsensResultValue setTimeout (const uint32_t ms)                                                //!< \brief Set the default timeout value to use in blocking operations on the communication port.
                { return (m_lastResult = m_serial.setTimeout(ms)); }
        XsensResultValue setTimeoutConfig (const uint32_t timeout = CMT3_DEFAULT_TIMEOUT_CONF);                //!< \brief Set the configuration mode timeout. \details When in config mode, the system uses a different message timeout than in measurement mode, since configuration messages can take longer to process than measurement mode messages. This function can be used to set the config mode timeout in ms. \note This function is only available in configuration mode. \see getTimeoutConfig getTimeoutMeasurement setTimeoutMeasurement setTimeout
        XsensResultValue setTimeoutMeasurement (const uint32_t timeout = CMT3_DEFAULT_TIMEOUT_MEAS);        //!< \brief Set the measurement mode timeout. \details When in measurement mode, the system uses a different message timeout than in config mode, since measurement mode messages should be faster to process than config mode messages. This function can be used to set the measurement mode timeout in ms. \note This function is only available in configuration mode. \see getTimeoutMeasurement getTimeoutConfig setTimeoutConfig setTimeout
        XsensResultValue setTransmissionDelay(const uint16_t delay);                                                                                                                                //!< \brief Set the RS485 acknowledge transmission delay of the device. \details This function sets the RS485 acknowledge transmission delay of the device. The RS485 acknowledge transmission delay determines the minimal delay to response on request messages. See the low-level communication documentation for more details. \see getAckTransmissionDelay \note This function is only available in configuration mode.
        XsensResultValue setXmOutputMode(const uint8_t mode);                                                                                        //!< \brief Set the dual-output mode of the XM. \details This function sets the dual mode output mode of the Xbus Master. The dual output mode of the Xbus Master defines whether it will send data on the serial connection (at the same baud rate as the bluetooth connection) when it is connected via Bluetooth. When set to 0, the serial communication is disabled, data is sent over the serial bus. \note When dual-mode is enabled, the Xbus Master will NOT receive commands on the serial bus. \note This function is only available in configuration mode. \see getXmDualOutputMode
        XsensResultValue setXmPowerOff(void);                                                                                        //!< \brief Switch the connected Xbus Master. \details This function tell the connected Xbus Master to power down. This differs from setBusPowerState, because this function actually powers down the Xbus Master itself, while setBusPowerState only powers down the bus controlled by the Xbus Master. After This function is called, the Xbus Master must be manually switched on to make it operational again. \see setBusPowerState
        XsensResultValue refreshCache(const bool file = false);                                                        //!< Update device information stored on host PC. \details Some device information is cached on the host PC for faster access. The Cmt3 automatically tries to keep the cache up to date. But when unexpected things happen, such as custom messages that change the settings, or a power-cycle, then the user may need to tell Cmt3 to update its cache. When both a file and a port are open, the file parameter can be used to indicate what data source to read from (true is file, false is port). \note This function is only available in configuration mode.
        XsensResultValue waitForDataMessage(Packet* pack);                                                                //!< \brief Wait for a data message to arrive. \details The function waits for a data message to arrive or until a timeout occurs. The function will also accept error messages.
        XsensResultValue createLogFile(const char* filename,bool startLogging = false);        //!< \brief Create a log file for incoming messages. \details This function creates a log file for recording incoming messages. The Cmt3 object must be connected to a communication port or the function will fail. \param filename The name of the file to use as a log file. A fully qualified (local) path+filename is recommended. \param startLogging When set to true (default), Cmt3 will immediately start logging incoming messages to the file, otherwise setLogMode must be called first before logging is started. \remarks If a writable file of the same name already exists in the target location, it will be overwritten without warning. \see closeLogFile isLogFileOpen openLogFile setLogMode \note This function is available in configuration AND in measurement mode.
        XsensResultValue createLogFile(const wchar_t* filename,bool startLogging = false);        //!< \brief Create a log file for incoming messages. \details This function creates a log file for recording incoming messages. The Cmt3 object must be connected to a communication port or the function will fail. \param filename The name of the file to use as a log file. A fully qualified (local) path+filename is recommended. \param startLogging When set to true (default), Cmt3 will immediately start logging incoming messages to the file, otherwise setLogMode must be called first before logging is started. \remarks If a writable file of the same name already exists in the target location, it will be overwritten without warning. \see closeLogFile isLogFileOpen openLogFile setLogMode \note This function is available in configuration AND in measurement mode.
        XsensResultValue closeLogFile(bool del=false);                                                                        //!< \brief Close an open log file. \details This function closes the logfile if it was open. \param del When set to true, the file will be deleted after closing if it is not read-only. This is mostly useful for temporary log-files.        \see createLogFile isLogFileOpen openLogFile setLogMode
        bool isLogFileOpen(const char* filename) const;                                //!< \brief Return whether or not(true or false) the supplied file is open. \details When the filename parameter is NULL or empty "", the function will simply return whether a log file is open. Otherwise, the supplied name will be checked against the name of the open log file as well. \return true if the log file is open, false if it isn't \see closeLogFile createLogFile openLogFile setLogMode
        bool isLogFileOpen(const wchar_t* filename) const;                                //!< \brief Return whether or not(true or false) the supplied file is open. \details When the filename parameter is NULL or empty "", the function will simply return whether a log file is open. Otherwise, the supplied name will be checked against the name of the open log file as well. \return true if the log file is open, false if it isn't \see closeLogFile createLogFile openLogFile setLogMode
        XsensResultValue openLogFile(const char* filename);                        //!< \brief Open a log file for input. \details This function opens the supplied log file for reading. The function will fail if a serial connection is currently open. \param filename The name of the file to open. It is recommended to use a fully qualified path+filename. \note This function is only available in configuration mode. \see closeLogFile createLogFile isLogFileOpen setLogMode
        XsensResultValue openLogFile(const wchar_t* filename);                        //!< \brief Open a log file for input. \details This function opens the supplied log file for reading. The function will fail if a serial connection is currently open. \param filename The name of the file to open. It is recommended to use a fully qualified path+filename. \note This function is only available in configuration mode. \see closeLogFile createLogFile isLogFileOpen setLogMode
        XsensResultValue setDataSource(bool readFromFile);                        //!< \brief Set whether to read from comm port or file. \details While it is not possible to open a port or file while the other is open, it is possible to create a log file while a port is open. In some rare cases it may be required to log data and read it back while the port remains open and then continue logging in the same file. This is not recommended. Instead, log to a file, close it and then open it in another Cmt3 object. However, if you must do this, then this function can be used to specify that you want to switch between reading from the log file (true) or port (false).
        XsensResultValue setLogMode(bool active);                                        //!< \brief Set the logging mode. \details This function sets the logging mode to enabled (true) or disabled (false). When enabled, all received messages are logged to the file. \remarks Some information that is cached on the host PC will generate faked messages in the log file. Eg. getConfiguration and some others.
        XsensResultValue resetLogFileReadPos(void);                                        //!< \brief Restart reading from the start of the open log file. \details This function resets the read position to the start of the open log file. Only the read position is affected, the write position remains the same. \see openLogFile
        XsensResultValue writeMessageToLogFile(const Message& msg);                                                                                                                                                                //! \brief Write the specified message to the open log file. \details This function can be used to add custom messages to a log file. \note A typical log file will only contain acknowledge messages, not request messages. \see createLogFile
        XsensResultValue getAvailableScenarios(CmtScenario* scenarios, const CmtDeviceId deviceId = CMT_DID_MASTER);                                                        //!< \brief Retrieve a list of the available scenarios. \details Use this function to retrieve a list of all scenarios available in a Motion Tracker. See the supplied documentation for more information about scenarios. \param scenarios A buffer for storing the available scenarios. The supplied buffer should be able to contain at least 6 scenarios, but for future devices a larger buffer is advised. Use CMT_MAX_SCENARIOS_IN_MT+1. The list is terminated by a scenario that has type 0. \remarks The type of any of the returned scenarios can be safely supplied to the setScenario function. \see getScenario setScenario \note This function is only available in configuration mode.
        XsensResultValue getScenario(uint8_t& scenarioType, uint8_t& scenarioVersion, const CmtDeviceId deviceId = CMT_DID_MASTER);        //!< \brief Get the currently active scenario from a Motion Tracker. \details This function retrieves the scenario currently used by the specified device when outputting orientation and/or position data. \see getAvailableScenarios setScenario \note This function is only available in configuration mode.
        XsensResultValue setScenario(const uint8_t scenarioType, const CmtDeviceId deviceId = CMT_DID_MASTER);                                                        //!< \brief Specify the scenario to use in the sensor. \details This function specifies the scenario that the sensor should use for converting raw data into orientation and/or position data. This must be one of the scenarios in the list supplied by getAvailableScenarios. \see getAvailableScenarios getScenario \note This function is only available in configuration mode.
        XsensResultValue getGravityMagnitude(double& magnitude, const CmtDeviceId deviceId = CMT_DID_MASTER);                        //!< \brief Retrieve the currently used magnitude of the gravity vector. \details The magnitude of the gravity vector is used to determine absolute acceleration from measured acceleration. \see setGravityMagnitude \note This function is only available in configuration mode.
        XsensResultValue setGravityMagnitude(const double magnitude, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Set the currently used magnitude of the gravity vector. \details The magnitude of the gravity vector is used to determine absolute acceleration from measured acceleration. Use this function to set tit to a custom value in m/s2. The default value of 9.812687357684514m/s2 should be fine for most places on earth, but in some cases the gravity may be drastically different from standard Earth gravity (eg. space, deep subterranean/submarine, polar regions, gravitational anomalies. See also <A HREF="http://www.abc.net.au/science/news/stories/s911917.htm">http://www.abc.net.au/science/news/stories/s911917.htm</A> and <A HREF="http://en.wikipedia.org/wiki/Earth%27s_gravity#Comparative_gravities_in_various_cities_around_the_world">http://en.wikipedia.org/wiki/Earth%27s_gravity#Comparative_gravities_in_various_cities_around_the_world</A>) \note Correct orientation output cannot be guaranteed when an incorrect value is supplied for the gravity. Changing this value is at your own risk. \see getGravityMagnitude \remarks In future versions, the MTi-G may be able to estimate the local gravity magnitude on its own. \note This function is only available in configuration mode.
        XsensResultValue getGpsLeverArm(CmtVector& arm, const CmtDeviceId deviceId = CMT_DID_MASTER);                                        //!< \brief Get the currently used GPS lever arm. \details Use this function to retrieve the vector currently used as the GPS lever arm in meters. The GPS lever arm is the relative position of the GPS antenna to the MTi-G unit. The arm is specified in the object coordinate system. See the manual for more information on coordinate systems, alignment resets and the lever arm. \see setGpsLeverArm \note This function is only available in configuration mode. \note This function is only available for MTi-G devices.
        XsensResultValue getGpsStatus(CmtGpsStatus& status, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Request the status of the GPS satellites in orbit. \details This function requests the GPS satellite status information from the GPS subsystem. In config mode, this information is requested from the GPS subsystem immediately, which can cause a relatively long delay (250ms) before a reply is received. In measurement mode, the satellite status is regularly polled internally and the latest status is returned immediately when this function is called.
        XsensResultValue setGpsLeverArm(const CmtVector& arm, const CmtDeviceId deviceId = CMT_DID_MASTER);                //!< \brief Set the currently used GPS lever arm. \details Use this function to set the vector currently used as the GPS lever arm. The GPS lever arm is the relative position of the GPS antenna to the MTi-G unit. The arm is specified in the object coordinate system and in meters. See the manual for more information on coordinate systems, alignment resets and the lever arm. \see getGpsLeverArm \note This function is only available in configuration mode. \note This function is only available for MTi-G devices.
        XsensResultValue storeXkfState(const CmtDeviceId deviceId = CMT_DID_MASTER);                                                        //!< \brief Store important components of the XKF filter state to non-volatile memory. \details This function allows you to store some critical components of the internal XKF filter state to non-volatile memory. The stored settings will be used to initialize the filter whenever the sensor is switched to Measurement mode. \note This function is only available in Config mode.
};

} // end of xsens namespace

#endif        // _CMT3_H_2006_04_14