2019-11-13 04:46:29 -04:00
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#pragma once
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#include "AP_Proximity.h"
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2019-12-05 21:00:37 -04:00
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#include "AP_Proximity_Backend_Serial.h"
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2019-11-13 04:46:29 -04:00
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#define PROXIMITY_SF40C_TIMEOUT_MS 200 // requests timeout after 0.2 seconds
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#define PROXIMITY_SF40C_PAYLOAD_LEN_MAX 256 // maximum payload size we can accept (in some configurations sensor may send as large as 1023)
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2019-12-04 01:27:30 -04:00
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#define PROXIMITY_SF40C_COMBINE_READINGS 7 // combine this many readings together to improve efficiency
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2019-11-13 04:46:29 -04:00
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2019-12-05 21:00:37 -04:00
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class AP_Proximity_LightWareSF40C : public AP_Proximity_Backend_Serial
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2019-11-13 04:46:29 -04:00
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{
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public:
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// constructor
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2019-12-05 21:00:37 -04:00
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using AP_Proximity_Backend_Serial::AP_Proximity_Backend_Serial;
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2019-11-13 04:46:29 -04:00
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2019-12-05 21:00:37 -04:00
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uint16_t rxspace() const override {
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return 1280;
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};
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2019-11-13 04:46:29 -04:00
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// update state
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void update(void) override;
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// get maximum and minimum distances (in meters) of sensor
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float distance_max() const override { return 100.0f; }
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float distance_min() const override { return 0.20f; }
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private:
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// initialise sensor
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void initialise();
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// restart sensor and re-init our state
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void restart_sensor();
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// message ids
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enum class MessageID : uint8_t {
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PRODUCT_NAME = 0,
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HARDWARE_VERSION = 1,
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FIRMWARE_VERSION = 2,
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SERIAL_NUMBER = 3,
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TEXT_MESSAGE = 7,
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USER_DATA = 9,
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TOKEN = 10,
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SAVE_PARAMETERS = 12,
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RESET = 14,
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STAGE_FIRMWARE = 16,
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COMMIT_FIRMWARE = 17,
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INCOMING_VOLTAGE = 20,
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STREAM = 30,
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DISTANCE_OUTPUT = 48,
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LASER_FIRING = 50,
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TEMPERATURE = 55,
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BAUD_RATE = 90,
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DISTANCE = 105,
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MOTOR_STATE = 106,
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MOTOR_VOLTAGE = 107,
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OUTPUT_RATE = 108,
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FORWARD_OFFSET = 109,
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REVOLUTIONS = 110,
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ALARM_STATE = 111,
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ALARM1 = 112,
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ALARM2 = 113,
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ALARM3 = 114,
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ALARM4 = 115,
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ALARM5 = 116,
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ALARM6 = 117,
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ALARM7 = 118
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};
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// motor states
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enum class MotorState : uint8_t {
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UNKNOWN = 0,
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PREPARING_FOR_STARTUP = 1,
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WAITING_FOR_FIVE_REVS = 2,
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RUNNING_NORMALLY = 3,
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FAILED_TO_COMMUNICATE = 4
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};
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// send message to sensor
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void send_message(MessageID msgid, bool write, const uint8_t *payload, uint16_t payload_len);
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// request motor state
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void request_motor_state();
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// request start of streaming of distances
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void request_stream_start();
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// request token of sensor (required for reset)
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void request_token();
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bool got_token() const { return (_sensor_state.token[0] != 0 || _sensor_state.token[1] != 0); }
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void clear_token() { memset(_sensor_state.token, 0, ARRAY_SIZE(_sensor_state.token)); }
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// request reset of sensor
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void request_reset();
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// check and process replies from sensor
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void process_replies();
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// process one byte received on serial port
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// state is stored in msg structure. when a full package is received process_message is called
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void parse_byte(uint8_t b);
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// process the latest message held in the msg structure
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void process_message();
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// internal variables
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uint32_t _last_request_ms; // system time of last request
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uint32_t _last_reply_ms; // system time of last valid reply
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uint32_t _last_restart_ms; // system time we restarted the sensor
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uint32_t _last_distance_received_ms; // system time of last distance measurement received from sensor
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uint8_t _last_sector = UINT8_MAX; // sector of last distance_cm
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// state of sensor
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struct {
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MotorState motor_state; // motor state (1=starting-up,2=waiting for first 5 revs, 3=normal, 4=comm failure)
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uint8_t output_rate; // output rate number (0 = 20010, 1 = 10005, 2 = 6670, 3 = 2001)
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bool streaming; // true if distance messages are being streamed
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uint8_t token[2]; // token (supplied by sensor) required for reset
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} _sensor_state;
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enum class ParseState {
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HEADER = 0,
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FLAGS_L,
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FLAGS_H,
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MSG_ID,
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PAYLOAD,
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CRC_L,
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CRC_H
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};
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// structure holding latest message contents
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struct {
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ParseState state; // state of incoming message processing
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uint8_t flags_low; // flags low byte
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uint8_t flags_high; // flags high byte
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uint16_t payload_len; // latest message payload length (1+ bytes in payload)
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uint8_t payload[PROXIMITY_SF40C_PAYLOAD_LEN_MAX]; // payload
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MessageID msgid; // latest message's message id
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uint16_t payload_recv; // number of message's payload bytes received so far
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uint8_t crc_low; // crc low byte
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uint8_t crc_high; // crc high byte
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uint16_t crc_expected; // latest message's expected crc
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} _msg;
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// convert buffer to uint32, uint16
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uint32_t buff_to_uint32(uint8_t b0, uint8_t b1, uint8_t b2, uint8_t b3) const;
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uint16_t buff_to_uint16(uint8_t b0, uint8_t b1) const;
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};
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