/* * RPLIDAR SDK * * Copyright (c) 2009 - 2014 RoboPeak Team * http://www.robopeak.com * Copyright (c) 2014 - 2018 Shanghai Slamtec Co., Ltd. * http://www.slamtec.com * */ /* * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #pragma once #ifndef __cplusplus #error "The RPlidar SDK requires a C++ compiler to be built" #endif #ifndef DEPRECATED #ifdef __GNUC__ #define DEPRECATED(func) func __attribute__ ((deprecated)) #elif defined(_MSC_VER) #define DEPRECATED(func) __declspec(deprecated) func #else #pragma message("WARNING: You need to implement DEPRECATED for this compiler") #define DEPRECATED(func) func #endif #endif namespace rp { namespace standalone{ namespace rplidar { struct RplidarScanMode { _u16 id; float us_per_sample; // microseconds per sample float max_distance; // max distance _u8 ans_type; // the answer type of the scam mode, its value should be RPLIDAR_ANS_TYPE_MEASUREMENT* char scan_mode[64]; // name of scan mode, max 63 characters }; enum { DRIVER_TYPE_SERIALPORT = 0x0, DRIVER_TYPE_TCP = 0x1, }; class ChannelDevice { public: virtual bool bind(const char*, uint32_t ) = 0; virtual bool open() {return true;} virtual void close() = 0; virtual void flush() {return;} virtual bool waitfordata(size_t data_count,_u32 timeout = -1, size_t * returned_size = NULL) = 0; virtual int senddata(const _u8 * data, size_t size) = 0; virtual int recvdata(unsigned char * data, size_t size) = 0; virtual void setDTR() {return;} virtual void clearDTR() {return;} virtual void ReleaseRxTx() {return;} }; class RPlidarDriver { public: enum { DEFAULT_TIMEOUT = 2000, //2000 ms }; enum { MAX_SCAN_NODES = 8192, }; enum { LEGACY_SAMPLE_DURATION = 476, }; public: /// Create an RPLIDAR Driver Instance /// This interface should be invoked first before any other operations /// /// \param drivertype the connection type used by the driver. static RPlidarDriver * CreateDriver(_u32 drivertype = DRIVER_TYPE_SERIALPORT); /// Dispose the RPLIDAR Driver Instance specified by the drv parameter /// Applications should invoke this interface when the driver instance is no longer used in order to free memory static void DisposeDriver(RPlidarDriver * drv); /// Open the specified serial port and connect to a target RPLIDAR device /// /// \param port_path the device path of the serial port /// e.g. on Windows, it may be com3 or \\.\com10 /// on Unix-Like OS, it may be /dev/ttyS1, /dev/ttyUSB2, etc /// /// \param baudrate the baudrate used /// For most RPLIDAR models, the baudrate should be set to 115200 /// /// \param flag other flags /// Reserved for future use, always set to Zero virtual u_result connect(const char *, _u32, _u32 flag = 0) = 0; /// Disconnect with the RPLIDAR and close the serial port virtual void disconnect() = 0; /// Returns TRUE when the connection has been established virtual bool isConnected() = 0; /// Ask the RPLIDAR core system to reset it self /// The host system can use the Reset operation to help RPLIDAR escape the self-protection mode. /// /// \param timeout The operation timeout value (in millisecond) for the serial port communication virtual u_result reset(_u32 timeout = DEFAULT_TIMEOUT) = 0; // FW1.24 /// Get all scan modes that supported by lidar virtual u_result getAllSupportedScanModes(std::vector& outModes, _u32 timeoutInMs = DEFAULT_TIMEOUT) = 0; /// Get typical scan mode of lidar virtual u_result getTypicalScanMode(_u16& outMode, _u32 timeoutInMs = DEFAULT_TIMEOUT) = 0; /// Start scan /// /// \param force Force the core system to output scan data regardless whether the scanning motor is rotating or not. /// \param useTypicalScan Use lidar's typical scan mode or use the compatibility mode (2k sps) /// \param options Scan options (please use 0) /// \param outUsedScanMode The scan mode selected by lidar virtual u_result startScan(bool force, bool useTypicalScan, _u32 options = 0, RplidarScanMode* outUsedScanMode = NULL) = 0; /// Start scan in specific mode /// /// \param force Force the core system to output scan data regardless whether the scanning motor is rotating or not. /// \param scanMode The scan mode id (use getAllSupportedScanModes to get supported modes) /// \param options Scan options (please use 0) /// \param outUsedScanMode The scan mode selected by lidar virtual u_result startScanExpress(bool force, _u16 scanMode, _u32 options = 0, RplidarScanMode* outUsedScanMode = NULL, _u32 timeout = DEFAULT_TIMEOUT) = 0; /// Retrieve the health status of the RPLIDAR /// The host system can use this operation to check whether RPLIDAR is in the self-protection mode. /// /// \param health The health status info returned from the RPLIDAR /// /// \param timeout The operation timeout value (in millisecond) for the serial port communication virtual u_result getHealth(rplidar_response_device_health_t & health, _u32 timeout = DEFAULT_TIMEOUT) = 0; /// Get the device information of the RPLIDAR include the serial number, firmware version, device model etc. /// /// \param info The device information returned from the RPLIDAR /// \param timeout The operation timeout value (in millisecond) for the serial port communication virtual u_result getDeviceInfo(rplidar_response_device_info_t & info, _u32 timeout = DEFAULT_TIMEOUT) = 0; /// Get the sample duration information of the RPLIDAR. /// DEPRECATED, please use RplidarScanMode::us_per_sample /// /// \param rateInfo The sample duration information returned from the RPLIDAR /// \param timeout The operation timeout value (in millisecond) for the serial port communication DEPRECATED(virtual u_result getSampleDuration_uS(rplidar_response_sample_rate_t & rateInfo, _u32 timeout = DEFAULT_TIMEOUT)) = 0; /// Set the RPLIDAR's motor pwm when using accessory board, currently valid for A2 only. /// /// \param pwm The motor pwm value would like to set virtual u_result setMotorPWM(_u16 pwm) = 0; /// Start RPLIDAR's motor when using accessory board virtual u_result startMotor() = 0; /// Stop RPLIDAR's motor when using accessory board virtual u_result stopMotor() = 0; /// Check whether the device support motor control. /// Note: this API will disable grab. /// /// \param support Return the result. /// \param timeout The operation timeout value (in millisecond) for the serial port communication. virtual u_result checkMotorCtrlSupport(bool & support, _u32 timeout = DEFAULT_TIMEOUT) = 0; /// Calculate RPLIDAR's current scanning frequency from the given scan data /// DEPRECATED, please use getFrequency(RplidarScanMode, size_t) /// /// Please refer to the application note doc for details /// Remark: the calcuation will be incorrect if the specified scan data doesn't contains enough data /// /// \param inExpressMode Indicate whether the RPLIDAR is in express mode /// \param count The number of sample nodes inside the given buffer /// \param frequency The scanning frequency (in HZ) calcuated by the interface. /// \param is4kmode Return whether the RPLIDAR is working on 4k sample rate mode. DEPRECATED(virtual u_result getFrequency(bool inExpressMode, size_t count, float & frequency, bool & is4kmode)) = 0; /// Calculate RPLIDAR's current scanning frequency from the given scan data /// Please refer to the application note doc for details /// Remark: the calcuation will be incorrect if the specified scan data doesn't contains enough data /// /// \param scanMode Lidar's current scan mode /// \param count The number of sample nodes inside the given buffer virtual u_result getFrequency(const RplidarScanMode& scanMode, size_t count, float & frequency) = 0; /// Ask the RPLIDAR core system to enter the scan mode(Normal/Express, Express mode is 4k mode) /// A background thread will be created by the RPLIDAR driver to fetch the scan data continuously. /// User Application can use the grabScanData() interface to retrieved the scan data cached previous by this background thread. /// /// \param force Force the core system to output scan data regardless whether the scanning motor is rotating or not. /// \param timeout The operation timeout value (in millisecond) for the serial port communication. virtual u_result startScanNormal(bool force, _u32 timeout = DEFAULT_TIMEOUT) = 0; /// Check whether the device support express mode. /// DEPRECATED, please use getAllSupportedScanModes /// /// \param support Return the result. /// \param timeout The operation timeout value (in millisecond) for the serial port communication. DEPRECATED(virtual u_result checkExpressScanSupported(bool & support, _u32 timeout = DEFAULT_TIMEOUT)) = 0; /// Ask the RPLIDAR core system to stop the current scan operation and enter idle state. The background thread will be terminated /// /// \param timeout The operation timeout value (in millisecond) for the serial port communication virtual u_result stop(_u32 timeout = DEFAULT_TIMEOUT) = 0; /// Wait and grab a complete 0-360 degree scan data previously received. /// NOTE: This method only support distance less than 16.38 meters, for longer distance, please use grabScanDataHq /// The grabbed scan data returned by this interface always has the following charactistics: /// /// 1) The first node of the grabbed data array (nodebuffer[0]) must be the first sample of a scan, i.e. the start_bit == 1 /// 2) All data nodes are belong to exactly ONE complete 360-degrees's scan /// 3) Note, the angle data in one scan may not be ascending. You can use API ascendScanData to reorder the nodebuffer. /// /// \param nodebuffer Buffer provided by the caller application to store the scan data /// /// \param count The caller must initialize this parameter to set the max data count of the provided buffer (in unit of rplidar_response_measurement_node_t). /// Once the interface returns, this parameter will store the actual received data count. /// /// \param timeout Max duration allowed to wait for a complete scan data, nothing will be stored to the nodebuffer if a complete 360-degrees' scan data cannot to be ready timely. /// /// The interface will return RESULT_OPERATION_TIMEOUT to indicate that no complete 360-degrees' scan can be retrieved withing the given timeout duration. /// /// \The caller application can set the timeout value to Zero(0) to make this interface always returns immediately to achieve non-block operation. DEPRECATED(virtual u_result grabScanData(rplidar_response_measurement_node_t * nodebuffer, size_t & count, _u32 timeout = DEFAULT_TIMEOUT)) = 0; /// Wait and grab a complete 0-360 degree scan data previously received. /// The grabbed scan data returned by this interface always has the following charactistics: /// /// 1) The first node of the grabbed data array (nodebuffer[0]) must be the first sample of a scan, i.e. the start_bit == 1 /// 2) All data nodes are belong to exactly ONE complete 360-degrees's scan /// 3) Note, the angle data in one scan may not be ascending. You can use API ascendScanData to reorder the nodebuffer. /// /// \param nodebuffer Buffer provided by the caller application to store the scan data /// /// \param count The caller must initialize this parameter to set the max data count of the provided buffer (in unit of rplidar_response_measurement_node_t). /// Once the interface returns, this parameter will store the actual received data count. /// /// \param timeout Max duration allowed to wait for a complete scan data, nothing will be stored to the nodebuffer if a complete 360-degrees' scan data cannot to be ready timely. /// /// The interface will return RESULT_OPERATION_TIMEOUT to indicate that no complete 360-degrees' scan can be retrieved withing the given timeout duration. /// /// \The caller application can set the timeout value to Zero(0) to make this interface always returns immediately to achieve non-block operation. virtual u_result grabScanDataHq(rplidar_response_measurement_node_hq_t * nodebuffer, size_t & count, _u32 timeout = DEFAULT_TIMEOUT) = 0; /// Ascending the scan data according to the angle value in the scan. /// /// \param nodebuffer Buffer provided by the caller application to do the reorder. Should be retrived from the grabScanData /// /// \param count The caller must initialize this parameter to set the max data count of the provided buffer (in unit of rplidar_response_measurement_node_t). /// Once the interface returns, this parameter will store the actual received data count. /// The interface will return RESULT_OPERATION_FAIL when all the scan data is invalid. DEPRECATED(virtual u_result ascendScanData(rplidar_response_measurement_node_t * nodebuffer, size_t count)) = 0; /// Ascending the scan data according to the angle value in the scan. /// /// \param nodebuffer Buffer provided by the caller application to do the reorder. Should be retrived from the grabScanData /// /// \param count The caller must initialize this parameter to set the max data count of the provided buffer (in unit of rplidar_response_measurement_node_t). /// Once the interface returns, this parameter will store the actual received data count. /// The interface will return RESULT_OPERATION_FAIL when all the scan data is invalid. virtual u_result ascendScanData(rplidar_response_measurement_node_hq_t * nodebuffer, size_t count) = 0; /// Return received scan points even if it's not complete scan /// /// \param nodebuffer Buffer provided by the caller application to store the scan data /// /// \param count Once the interface returns, this parameter will store the actual received data count. /// /// The interface will return RESULT_OPERATION_TIMEOUT to indicate that not even a single node can be retrieved since last call. DEPRECATED(virtual u_result getScanDataWithInterval(rplidar_response_measurement_node_t * nodebuffer, size_t & count)) = 0; /// Return received scan points even if it's not complete scan /// /// \param nodebuffer Buffer provided by the caller application to store the scan data /// /// \param count Once the interface returns, this parameter will store the actual received data count. /// /// The interface will return RESULT_OPERATION_TIMEOUT to indicate that not even a single node can be retrieved since last call. virtual u_result getScanDataWithIntervalHq(rplidar_response_measurement_node_hq_t * nodebuffer, size_t & count) = 0; virtual ~RPlidarDriver() {} protected: RPlidarDriver(){} public: ChannelDevice* _chanDev; }; }}}