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ev3.i
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ev3.i
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/* ev3.i was generated by yup.py (yupp) 0.9b1
out of ev3.yu-i at 2015-11-11 15:00
*//**
* \file ev3.i (ev3.yu-i)
* \brief SWIG interface file.
* \author Vitaly Kravtsov ([email protected])
* \copyright See the LICENSE file.
*/
%module ev3
%include "cstring.i"
%include "stdint.i"
%include "typemaps.i"
%{
#include "../source/ev3/ev3.h"
#include "../source/ev3/ev3_led.h"
#include "../source/ev3/ev3_light.h"
#include "../source/ev3/ev3_port.h"
#include "../source/ev3/ev3_sensor.h"
#include "../source/ev3/ev3_tacho.h"
#include "../source/ev3/ev3_dc.h"
#include "../source/ev3/ev3_servo.h"
%}
%define ALLOC_OUTPUT_BUFFER(TYPEMAP,MAX)
%typemap(in,noblock=1,numinputs=0) TYPEMAP (char temp[MAX+1]) {
$1 = temp;
}
%enddef
/* String buffer without size is passed only for getting a port name */
ALLOC_OUTPUT_BUFFER( char *buf, 64 );
/* Unfortunately incompatible with %typemap( default ) size_t sz { $1 = DEFAULT_BUF_SIZE; } */
%cstring_output_maxsize( char *buf, size_t sz );
%include "./platform.h"
#ifdef SWIGPERL
/* because of the problem with SWIG_From_bool on the brick... */
#define bool int
#endif
%apply uint8_t *OUTPUT { uint8_t *sn };
%apply bool *OUTPUT { bool *buf };
%apply int *OUTPUT { int *buf };
%apply uint8_t *OUTPUT { uint8_t *buf };
%apply uint8_t *OUTPUT { byte *buf };
%apply uint32_t *OUTPUT { uint32_t *buf };
%apply uint32_t *OUTPUT { dword *buf };
%apply float *OUTPUT { float *buf };
%apply uint8_t *OUTPUT { FLAGS_T *flags };
%apply uint32_t { dword };
%apply uint8_t { byte };
%apply uint8_t { INX_T };
%apply uint8_t { FLAGS_T };
#ifdef SWIGRUBY
%typemap( out ) size_t, bool { $result = $1 ? Qtrue : Qfalse; };
%typemap( in ) bool { $1 = $input == Qtrue ? 1 : 0; };
#endif
%typemap( default ) uint8_t from { $1 = 0; };
/*
* ev3
*/
// CLIENT ////////////////////////////////////////
#if EV3_BRICK == 0
%rename( brick_addr ) ev3_brick_addr;
extern char *ev3_brick_addr;
%rename( brick_port ) ev3_brick_port;
extern uint16_t ev3_brick_port;
//////////////////////////////////////////////////
#endif
extern int ev3_init( void );
extern void ev3_uninit( void );
extern size_t ev3_write_binary( const char *fn, char *STRING, size_t LENGTH );
extern size_t ev3_write( const char *fn, char *value );
extern size_t ev3_write_bool( const char *fn, bool value );
extern size_t ev3_write_int( const char *fn, int value );
extern size_t ev3_write_dword( const char *fn, uint32_t value );
extern size_t ev3_write_byte( const char *fn, uint8_t value );
extern size_t ev3_write_float( const char *fn, float value );
extern size_t ev3_read_binary( const char *fn, char *buf, size_t sz );
extern size_t ev3_read( const char *fn, char *buf, size_t sz );
#ifndef SWIGRUBY
extern size_t ev3_read_bool( const char *fn, bool *buf );
#endif
extern size_t ev3_read_int( const char *fn, int *buf );
extern size_t ev3_read_dword( const char *fn, uint32_t *buf );
extern size_t ev3_read_byte( const char *fn, uint8_t *buf );
extern size_t ev3_read_float( const char *fn, float *buf );
extern size_t ev3_listdir( const char *fn, char *buf, size_t sz );
extern size_t ev3_read_keys( uint8_t *buf );
extern bool ev3_poweroff( void );
enum {
EV3_KEY__NONE_ = 0,
EV3_KEY_UP = 0x01L,
EV3_KEY_DOWN = 0x02L,
EV3_KEY_LEFT = 0x04L,
EV3_KEY_RIGHT = 0x08L,
EV3_KEY_CENTER = 0x10L,
EV3_KEY_BACK = 0x20L,
};
/**
* \brief Identifiers of LEDs.
*/
enum {
EV3_LEFT_GREEN,
EV3_RIGHT_GREEN,
EV3_LEFT_RED,
EV3_RIGHT_RED,
LED_OUTA,
LED_OUTB,
LED_OUTC,
LED_OUTD,
LED__COUNT_ /**< Count of EV3 LEDs. */
};
/**
* \brief Triggers identifiers of LEDs.
*/
enum {
TRIGGER_NONE,
TRIGGER_MMC0,
TRIGGER_TIMER,
TRIGGER_HEARTBEAT,
TRIGGER_DEFAULT_ON,
TRIGGER_TRANSIENT,
TRIGGER_LEGOEV3_BATTERY_CHARGING_OR_FULL,
TRIGGER_LEGOEV3_BATTERY_CHARGING,
TRIGGER_LEGOEV3_BATTERY_FULL,
TRIGGER_LEGOEV3_BATTERY_CHARGING_BLINK_FULL_SOLID,
TRIGGER_RFKILL0,
TRIGGER_PHY0RX,
TRIGGER_PHY0TX,
TRIGGER_PHY0ASSOC,
TRIGGER_PHY0RADIO,
TRIGGER_RFKILL1,
TRIGGER__COUNT_ /**< Count of EV3 triggers. */
};
#define LED_ATTR__COUNT_ 5
/**
* \brief Read "brightness" attribute of the LED.
* \param inx Index of the LED.
* \param[out] buf Buffer for result.
* \return Count of read bytes.
*/
extern size_t get_led_brightness( uint8_t inx, byte *buf );
/**
* \brief Write "brightness" attribute of the LED.
* \param inx Index of the LED.
* \param value Attribute value.
* \return Count of written bytes.
*/
extern size_t set_led_brightness( uint8_t inx, byte value );
/**
* \brief Read "delay_off" attribute of the LED.
* \param inx Index of the LED.
* \param[out] buf Buffer for result.
* \return Count of read bytes.
*/
extern size_t get_led_delay_off( uint8_t inx, int *buf );
/**
* \brief Write "delay_off" attribute of the LED.
* \param inx Index of the LED.
* \param value Attribute value.
* \return Count of written bytes.
*/
extern size_t set_led_delay_off( uint8_t inx, int value );
/**
* \brief Read "delay_on" attribute of the LED.
* \param inx Index of the LED.
* \param[out] buf Buffer for result.
* \return Count of read bytes.
*/
extern size_t get_led_delay_on( uint8_t inx, int *buf );
/**
* \brief Write "delay_on" attribute of the LED.
* \param inx Index of the LED.
* \param value Attribute value.
* \return Count of written bytes.
*/
extern size_t set_led_delay_on( uint8_t inx, int value );
/**
* \brief Read "max_brightness" attribute of the LED.
* \param inx Index of the LED.
* \param[out] buf Buffer for result.
* \return Count of read bytes.
*/
extern size_t get_led_max_brightness( uint8_t inx, byte *buf );
/**
* \brief Read "trigger" attribute of the LED.
* \param inx Index of the LED.
* \param[out] buf Buffer for result.
* \param sz Buffer size.
* \return Count of read bytes.
*/
extern size_t get_led_trigger( uint8_t inx, char *buf, size_t sz );
/**
* \brief Write "trigger" attribute of the LED.
* \param inx Index of the LED.
* \param value Attribute value.
* \return Count of written bytes.
*/
extern size_t set_led_trigger( uint8_t inx, char *value );
/**
* \brief Read "trigger" attribute of the LED and get the index.
* \param inx Index of the LED.
* \return Index of trigger or TRIGGER__COUNT_ - error has occurred.
*/
extern INX_T get_led_trigger_inx( uint8_t inx );
/**
* \brief Write "trigger" attribute of the LED by the index.
* \param inx Index of the LED.
* \param trigger_inx Index of the trigger.
* \return Count of written bytes.
*/
extern size_t set_led_trigger_inx( uint8_t inx, INX_T trigger_inx );
/**
* \brief Get name of the specified LED trigger.
* \param trigger_inx Index of the trigger.
* \return Requested value.
*/
extern const char *ev3_led_trigger( INX_T trigger_inx );
/**
* \brief Identifiers of light locations.
*/
enum {
LIT_LEFT,
LIT_RIGHT,
LIT__LOC__
};
/**
* \brief Identifiers of light colors.
*/
enum {
LIT_OFF,
LIT_GREEN,
LIT_RED,
LIT_AMBER,
LIT__COL__
};
/**
* \brief Light colors.
*/
extern const char * const LIT_COLOR[] = { "OFF", "GREEN", "RED", "AMBER", STR_unknown_ };
/**
* \brief Get the light color name.
* \param col Color.
* \return Color name.
*/
extern const char *light_color( uint8_t col );
/**
* \brief Set the light color.
* \param loc Location.
* \param col Color.
*/
extern void set_light( uint8_t loc, uint8_t col );
/**
* \brief Get the light color.
* \param loc Location.
* \return Color.
*/
extern uint8_t get_light( uint8_t loc );
/**
* \brief Set the light trigger.
* \param loc Location.
* \param col Color.
* \param trigger Index of trigger.
*/
extern void set_light_trigger( uint8_t loc, uint8_t col, uint8_t trigger );
/**
* \brief Get the light trigger.
* \param loc Location.
* \param col Color.
* \return Index of trigger or TRIGGER__COUNT_ - error has occurred.
*/
extern uint8_t get_light_trigger( uint8_t loc, uint8_t col );
/**
* \brief Set the light blink.
* \param loc Location.
* \param col Color.
* \param delay_on Time of "on" state in ms.
* \param delay_off Time of "off" state in ms.
*/
extern void set_light_blink( uint8_t loc, uint8_t col, int delay_on, int delay_off );
/**
* \brief Check the light is blinking.
* \param loc Location.
* \param col Color.
* \return Flag - the light is blinking.
*/
extern bool get_light_blink( uint8_t loc, uint8_t col );
#define PORT_DIR "/sys/class/lego-port" /**< Directory of EV3 ports. */
/**
* \brief Structure of a EV3 port descriptor.
*/
typedef struct {
INX_T type_inx; /**< EV3 port type. */
uint8_t port; /**< EV3 port EV3 port. */
uint8_t extport; /**< EV3 port extended port. */
uint8_t addr; /**< EV3 port address. */
} EV3_PORT;
#define PORT_DESC__LIMIT_ 64 /**< Limit of EV3 port descriptors. */
#define PORT__NONE_ PORT_DESC__LIMIT_ /**< EV3 port is not found. */
/**
* \brief Vector of EV3 port descriptors (filled by \ref ev3_port_init).
*/
extern EV3_PORT ev3_port[ PORT_DESC__LIMIT_ ];
/**
* \brief Identifiers of EV3 port types.
*/
enum {
PORT_TYPE__NONE_ = 0, /* XXX: memset( 0 ) is used */
HT_NXT_SMUX_PORT,
LEGOEV3_INPUT_PORT,
LEGOEV3_OUTPUT_PORT,
MS_EV3_SMUX_PORT,
MS_NXTMMX_OUT_PORT,
WEDO_PORT,
PORT_TYPE__COUNT_, /**< Count of EV3 port types. */
PORT_TYPE__UNKNOWN_ = PORT_TYPE__COUNT_
};
/**
* \brief Identifiers of EV3 port modes.
*/
enum {
PORT_MODE__NONE_ = 0,
HT_NXT_SMUX_PORT_ANALOG, HT_NXT_SMUX_ANALOG = HT_NXT_SMUX_PORT_ANALOG,
HT_NXT_SMUX_PORT_I2C, HT_NXT_SMUX_I2C = HT_NXT_SMUX_PORT_I2C,
LEGOEV3_INPUT_PORT_AUTO, INPUT_AUTO = LEGOEV3_INPUT_PORT_AUTO,
LEGOEV3_INPUT_PORT_NXT_ANALOG, INPUT_NXT_ANALOG = LEGOEV3_INPUT_PORT_NXT_ANALOG,
LEGOEV3_INPUT_PORT_NXT_COLOR, INPUT_NXT_COLOR = LEGOEV3_INPUT_PORT_NXT_COLOR,
LEGOEV3_INPUT_PORT_NXT_I2C, INPUT_NXT_I2C = LEGOEV3_INPUT_PORT_NXT_I2C,
LEGOEV3_INPUT_PORT_EV3_ANALOG, INPUT_EV3_ANALOG = LEGOEV3_INPUT_PORT_EV3_ANALOG,
LEGOEV3_INPUT_PORT_EV3_UART, INPUT_EV3_UART = LEGOEV3_INPUT_PORT_EV3_UART,
LEGOEV3_INPUT_PORT_OTHER_UART, INPUT_OTHER_UART = LEGOEV3_INPUT_PORT_OTHER_UART,
LEGOEV3_INPUT_PORT_RAW, INPUT_RAW = LEGOEV3_INPUT_PORT_RAW,
LEGOEV3_OUTPUT_PORT_AUTO, OUTPUT_AUTO = LEGOEV3_OUTPUT_PORT_AUTO,
LEGOEV3_OUTPUT_PORT_EV3_TACHO_MOTOR, OUTPUT_EV3_TACHO_MOTOR = LEGOEV3_OUTPUT_PORT_EV3_TACHO_MOTOR,
LEGOEV3_OUTPUT_PORT_RCX_MOTOR, OUTPUT_RCX_MOTOR = LEGOEV3_OUTPUT_PORT_RCX_MOTOR,
LEGOEV3_OUTPUT_PORT_RCX_LED, OUTPUT_RCX_LED = LEGOEV3_OUTPUT_PORT_RCX_LED,
LEGOEV3_OUTPUT_PORT_RAW, OUTPUT_RAW = LEGOEV3_OUTPUT_PORT_RAW,
MS_EV3_SMUX_PORT_UART, MS_EV3_SMUX_UART = MS_EV3_SMUX_PORT_UART,
MS_EV3_SMUX_PORT_ANALOG, MS_EV3_SMUX_ANALOG = MS_EV3_SMUX_PORT_ANALOG,
MS_NXTMMX_OUT_PORT_TACHO_MOTOR, MS_NXTMMX_TACHO_MOTOR = MS_NXTMMX_OUT_PORT_TACHO_MOTOR,
WEDO_PORT_AUTO, WEDO_AUTO = WEDO_PORT_AUTO,
PORT_MODE__COUNT_, /**< Count of EV3 port modes. */
PORT_MODE__UNKNOWN_ = PORT_MODE__COUNT_
};
/**
* \brief Read "driver_name" attribute of the EV3 port.
* \param sn Sequence number.
* \param[out] buf Buffer for result.
* \param sz Buffer size.
* \return Count of read bytes.
*/
extern size_t get_port_driver_name( uint8_t sn, char *buf, size_t sz );
/**
* \brief Read "mode" attribute of the EV3 port.
* \param sn Sequence number.
* \param[out] buf Buffer for result.
* \param sz Buffer size.
* \return Count of read bytes.
*/
extern size_t get_port_mode( uint8_t sn, char *buf, size_t sz );
/**
* \brief Write "mode" attribute of the EV3 port.
* \param sn Sequence number.
* \param value Attribute value.
* \return Count of written bytes.
*/
extern size_t set_port_mode( uint8_t sn, char *value );
/**
* \brief Read "modes" attribute of the EV3 port.
* \param sn Sequence number.
* \param[out] buf Buffer for result.
* \param sz Buffer size.
* \return Count of read bytes.
*/
extern size_t get_port_modes( uint8_t sn, char *buf, size_t sz );
/**
* \brief Read "port_name" attribute of the EV3 port.
* \param sn Sequence number.
* \param[out] buf Buffer for result.
* \param sz Buffer size.
* \return Count of read bytes.
*/
extern size_t get_port_port_name( uint8_t sn, char *buf, size_t sz );
/**
* \brief Write "set_device" attribute of the EV3 port.
* \param sn Sequence number.
* \param value Attribute value.
* \return Count of written bytes.
*/
extern size_t set_port_set_device( uint8_t sn, char *value );
/**
* \brief Read "status" attribute of the EV3 port.
* \param sn Sequence number.
* \param[out] buf Buffer for result.
* \param sz Buffer size.
* \return Count of read bytes.
*/
extern size_t get_port_status( uint8_t sn, char *buf, size_t sz );
/**
* \brief Get name of the specified EV3 port type.
* \param type_inx Index of the EV3 port type.
* \return Requested value.
*/
extern const char *ev3_port_type( INX_T type_inx );
/**
* \brief Read "driver_name" attribute and get index of the EV3 port type.
* \param sn Sequence number.
* \return Requested value.
*/
extern INX_T get_port_type_inx( uint8_t sn );
/**
* \brief Read the EV3 port attributes that are required for filling the descriptor.
* \param sn Sequence number.
* \param desc Buffer for the descriptor.
* \return Count of read bytes.
*/
extern size_t get_port_desc( uint8_t sn, EV3_PORT *desc );
/**
* \brief Get descriptor of the EV3 port.
* \param sn Sequence number.
* \return Pointer to the EV3 port descriptor.
*/
extern EV3_PORT *ev3_port_desc( uint8_t sn );
/**
* \brief Get type from the EV3 port descriptor.
* \param sn Sequence number.
* \return Requested value.
*/
extern INX_T ev3_port_desc_type_inx( uint8_t sn );
/**
* \brief Get EV3 port from the EV3 port descriptor.
* \param sn Sequence number.
* \return Requested value.
*/
extern uint8_t ev3_port_desc_port( uint8_t sn );
/**
* \brief Get extended port from the EV3 port descriptor.
* \param sn Sequence number.
* \return Requested value.
*/
extern uint8_t ev3_port_desc_extport( uint8_t sn );
/**
* \brief Get address from the EV3 port descriptor.
* \param sn Sequence number.
* \return Requested value.
*/
extern uint8_t ev3_port_desc_addr( uint8_t sn );
/**
* \brief Assemble EV3 port name from the EV3 port descriptor.
* \param sn Sequence number.
* \param[out] buf Buffer for result.
* \return Requested value.
*/
extern char *ev3_port_port_name( uint8_t sn, char *buf );
/**
* \brief Search of a sequence number of the specified EV3 port type.
* \param type_inx The EV3 port type.
* \param[out] sn Buffer for the sequence number.
* \param from Search initial value.
* \return Flag - the EV3 port is found.
*/
extern bool ev3_search_port_type( INX_T type_inx, uint8_t *sn, uint8_t from );
/**
* \brief Search of a sequence number the EV3 port by plug-in attributes.
* \param port EV3 port.
* \param extport Extended port.
* \param[out] sn Buffer for the sequence number.
* \param from Search initial value.
* \return Flag - the EV3 port is found.
*/
extern bool ev3_search_port_plugged_in( uint8_t port, uint8_t extport, uint8_t *sn, uint8_t from );
/**
* \brief Get name of the specified EV3 port mode.
* \param mode_inx Index of the EV3 port mode.
* \return Requested value.
*/
extern const char *ev3_port_mode( INX_T mode_inx );
/**
* \brief Read "mode" attribute of the EV3 port and get the index.
* \param sn Sequence number.
* \param type_inx Index of the EV3 port type.
* \return Requested value.
*/
extern INX_T get_port_mode_inx( uint8_t sn, INX_T type_inx );
/**
* \brief Write "mode" attribute of the EV3 port by the index.
* \param sn Sequence number.
* \param mode_inx Index of the EV3 port mode.
* \return Count of written bytes.
*/
extern size_t set_port_mode_inx( uint8_t sn, INX_T mode_inx );
/**
* \brief Detect connected EV3 ports.
* \return The number of found EV3 ports or -1 in case of an error.
*/
extern int ev3_port_init( void );
/**
* \brief Identifiers of EV3 ports and extended ports.
*/
#define EV3_PORT__NONE_ 0 /* XXX: 0 is used */
#define EXT_PORT__NONE_ EV3_PORT__NONE_
#define INPUT_1 49 // '1'
#define INPUT_2 50 // '2'
#define INPUT_3 51 // '3'
#define INPUT_4 52 // '4'
#define OUTPUT_A 65 // 'A'
#define OUTPUT_B 66 // 'B'
#define OUTPUT_C 67 // 'C'
#define OUTPUT_D 68 // 'D'
#define MUX_1 49 // '1'
#define MUX_2 50 // '2'
#define MUX_3 51 // '3'
#define MUX_4 52 // '4'
#define SERVO__OFFSET_ 16
#define SERVO_1 65 // 'A'
#define SERVO_2 66 // 'B'
#define SERVO_3 67 // 'C'
#define SERVO_4 68 // 'D'
#define SERVO_5 69 // 'E'
#define SERVO_6 70 // 'F'
#define SERVO_7 71 // 'G'
#define SERVO_8 72 // 'H'
#define NXTMMX__OFFSET_ 28
#define NXTMMX_1 77 // 'M'
#define NXTMMX_2 78 // 'N'
#define WEDO__OFFSET_ 48
#define WEDO_1 97 // 'a'
#define WEDO_2 98 // 'b'
#define WEDO_3 99 // 'c'
#define WEDO_4 100 // 'd'
/**
* \brief Search of a port sequence number by the EV3 port and the extended port.
* \param port EV3 port index.
* \param extport Extended port index.
* \return Port sequence number.
*/
extern uint8_t ev3_search_port( uint8_t port, uint8_t extport );
/**
* \brief Parse name of the EV3 port.
* \param name Port name.
* \param port Buffer for the EV3 port index.
* \param extport Buffer for the extended port index.
* \param addr Buffer for the address.
*/
extern void ev3_parse_port_name( char *name, uint8_t *port, uint8_t *extport, uint8_t *addr );
/**
* \brief Assemble name of the EV3 port.
* \param port EV3 port index.
* \param extport Extended port index.
* \param addr Address.
* \param[out] buf Buffer for result.
* \return Requested value.
*/
extern char *ev3_port_name( uint8_t port, uint8_t extport, uint8_t addr, char *buf );
#define SENSOR_DIR "/sys/class/lego-sensor" /**< Directory of sensors. */
/**
* \brief Structure of a sensor descriptor.
*/
typedef struct {
INX_T type_inx; /**< Sensor type. */
uint8_t port; /**< Sensor EV3 port. */
uint8_t extport; /**< Sensor extended port. */
uint8_t addr; /**< Sensor address. */
} EV3_SENSOR;
#define SENSOR_DESC__LIMIT_ 64 /**< Limit of sensor descriptors. */
#define SENSOR__NONE_ SENSOR_DESC__LIMIT_ /**< Sensor is not found. */
/**
* \brief Vector of sensor descriptors (filled by \ref ev3_sensor_init).
*/
extern EV3_SENSOR ev3_sensor[ SENSOR_DESC__LIMIT_ ];
/**
* \brief Identifiers of sensor types.
*/
enum {
SENSOR_TYPE__NONE_ = 0, /* XXX: memset( 0 ) is used */
EV3_ANALOG_XX,
NXT_ANALOG,
PIXY_LEGO,
DI_DFLEX,
HT_NXT_COLOR,
HT_NXT_ANGLE,
HT_NXT_ACCEL,
HT_NXT_BAROMETRIC,
HT_NXT_COLOR_V2,
HT_NXT_EOPD,
HT_NXT_FORCE,
HT_NXT_GYRO,
HT_NXT_IR_LINK,
HT_NXT_IR_RECEIVER,
HT_NXT_PIR,
HT_NXT_COMPASS,
HT_NXT_MAG,
HT_NXT_IR_SEEK_V2,
HT_NXT_SMUX,
HT_SUPER_PRO,
LEGO_EV3_US,
LEGO_EV3_GYRO,
LEGO_EV3_COLOR,
LEGO_EV3_TOUCH,
LEGO_EV3_IR,
WEDO_HUB,
WEDO_MOTION,
WEDO_TILT,
LEGO_POWER_STORAGE,
LEGO_NXT_TOUCH,
LEGO_NXT_LIGHT,
LEGO_NXT_SOUND,
LEGO_NXT_US,
MI_XG1300L,
MS_ABSOLUTE_IMU,
MS_ANGLE,
MS_EV3_SMUX,
MS_LIGHT_ARRAY,
MS_LINE_LEADER,
MS_NXTCAM,
MS_NXTMMX,
MS_8CH_SERVO,
MS_PIXY_ADAPTER,
MS_NXT_TOUCH_MUX,
SENSOR_TYPE__COUNT_, /**< Count of sensor types. */
SENSOR_TYPE__UNKNOWN_ = SENSOR_TYPE__COUNT_
};
/**
* \brief Identifiers of sensor modes.
*/
enum {
SENSOR_MODE__NONE_ = 0,
EV3_ANALOG_XX_ANALOG,
NXT_ANALOG_ANALOG_0,
NXT_ANALOG_ANALOG_1,
PIXY_LEGO_ALL,
PIXY_LEGO_SIG1,
PIXY_LEGO_SIG2,
PIXY_LEGO_SIG3,
PIXY_LEGO_SIG4,
PIXY_LEGO_SIG5,
PIXY_LEGO_SIG6,
PIXY_LEGO_SIG7,
PIXY_LEGO_COL_CODE,
PIXY_LEGO_ANGLE,
DI_DFLEX_FLEX,
HT_NXT_COLOR_COLOR,
HT_NXT_COLOR_RED,
HT_NXT_COLOR_GREEN,
HT_NXT_COLOR_BLUE,
HT_NXT_COLOR_RAW,
HT_NXT_COLOR_NORM,
HT_NXT_COLOR_ALL,
HT_NXT_ANGLE_ANGLE,
HT_NXT_ANGLE_ANGLE_ACC,
HT_NXT_ANGLE_SPEED,
HT_NXT_ACCEL_ACCEL,
HT_NXT_ACCEL_ALL,
HT_NXT_BAROMETRIC_PRESS,
HT_NXT_BAROMETRIC_TEMP,
HT_NXT_COLOR_V2_COLOR,
HT_NXT_COLOR_V2_RED,
HT_NXT_COLOR_V2_GREEN,
HT_NXT_COLOR_V2_BLUE,
HT_NXT_COLOR_V2_WHITE,
HT_NXT_COLOR_V2_NORM,
HT_NXT_COLOR_V2_ALL,
HT_NXT_COLOR_V2_RAW,
HT_NXT_EOPD_LONG,
HT_NXT_EOPD_SHORT,
HT_NXT_FORCE_FORCE,
HT_NXT_GYRO_GYRO,
HT_NXT_IR_LINK_IRLINK,
HT_NXT_IR_RECEIVER_1_MOTOR,
HT_NXT_IR_RECEIVER_8_MOTOR,
HT_NXT_PIR_PROX,
HT_NXT_COMPASS_COMPASS,
HT_NXT_MAG_MAG,
HT_NXT_IR_SEEK_V2_DC,
HT_NXT_IR_SEEK_V2_AC,
HT_NXT_IR_SEEK_V2_DC_ALL,
HT_NXT_IR_SEEK_V2_AC_ALL,
HT_NXT_SMUX_MUX,
HT_SUPER_PRO_AIN,
HT_SUPER_PRO_DIN,
HT_SUPER_PRO_DOUT,
HT_SUPER_PRO_DCTRL,
HT_SUPER_PRO_STROBE,
HT_SUPER_PRO_LED,
HT_SUPER_PRO_AOUT_0,
HT_SUPER_PRO_AOUT_1,
LEGO_EV3_US_US_DIST_CM,
LEGO_EV3_US_US_DIST_IN,
LEGO_EV3_US_US_LISTEN,
LEGO_EV3_US_US_SI_CM,
LEGO_EV3_US_US_SI_IN,
LEGO_EV3_US_US_DC_CM,
LEGO_EV3_US_US_DC_IN,
LEGO_EV3_GYRO_GYRO_ANG,
LEGO_EV3_GYRO_GYRO_RATE,
LEGO_EV3_GYRO_GYRO_FAS,
LEGO_EV3_GYRO_GYRO_G_AND_A,
LEGO_EV3_GYRO_GYRO_CAL,
LEGO_EV3_COLOR_COL_REFLECT,
LEGO_EV3_COLOR_COL_AMBIENT,
LEGO_EV3_COLOR_COL_COLOR,
LEGO_EV3_COLOR_REF_RAW,
LEGO_EV3_COLOR_RGB_RAW,
LEGO_EV3_COLOR_COL_CAL,
LEGO_EV3_TOUCH_TOUCH,
LEGO_EV3_IR_IR_PROX,
LEGO_EV3_IR_IR_SEEK,
LEGO_EV3_IR_IR_REMOTE,
LEGO_EV3_IR_IR_REM_A,
LEGO_EV3_IR_IR_S_ALT,
LEGO_EV3_IR_IR_CAL,
WEDO_HUB_HUB,
WEDO_MOTION_PROX,
WEDO_MOTION_RAW,
WEDO_TILT_TILT,
WEDO_TILT_TILT_AXIS,
WEDO_TILT_RAW,
LEGO_POWER_STORAGE_IN_VOLT,
LEGO_POWER_STORAGE_IN_AMP,
LEGO_POWER_STORAGE_OUT_VOLT,
LEGO_POWER_STORAGE_OUT_AMP,
LEGO_POWER_STORAGE_JOULE,
LEGO_POWER_STORAGE_IN_WATT,
LEGO_POWER_STORAGE_OUT_WATT,
LEGO_POWER_STORAGE_ALL,
LEGO_NXT_TOUCH_TOUCH,
LEGO_NXT_LIGHT_REFLECT,
LEGO_NXT_LIGHT_AMBIENT,
LEGO_NXT_SOUND_DB,
LEGO_NXT_SOUND_DBA,
LEGO_NXT_US_US_DIST_CM,
LEGO_NXT_US_US_DIST_IN,
LEGO_NXT_US_US_SI_CM,
LEGO_NXT_US_US_SI_IN,
LEGO_NXT_US_US_LISTEN,
MI_XG1300L_ANGLE,
MI_XG1300L_SPEED,
MI_XG1300L_ACCEL,
MI_XG1300L_ALL,
MS_ABSOLUTE_IMU_TILT,
MS_ABSOLUTE_IMU_ACCEL,
MS_ABSOLUTE_IMU_COMPASS,
MS_ABSOLUTE_IMU_MAG,
MS_ABSOLUTE_IMU_GYRO,
MS_ABSOLUTE_IMU_ALL,
MS_ANGLE_ANGLE,
MS_ANGLE_ANGLE2,
MS_ANGLE_SPEED,
MS_ANGLE_ALL,
MS_EV3_SMUX_MUX,
MS_LIGHT_ARRAY_CAL,
MS_LIGHT_ARRAY_RAW,
MS_LINE_LEADER_PID,
MS_LINE_LEADER_PID_ALL,
MS_LINE_LEADER_CAL,
MS_LINE_LEADER_RAW,
MS_NXTCAM_TRACK,
MS_NXTMMX_STATUS,
MS_NXTMMX_STATUS_OLD,
MS_8CH_SERVO_V3,
MS_8CH_SERVO_OLD,
MS_PIXY_ADAPTER_TRACK,
MS_NXT_TOUCH_MUX_TOUCH_MUX,
SENSOR_MODE__COUNT_, /**< Count of sensor modes. */
SENSOR_MODE__UNKNOWN_ = SENSOR_MODE__COUNT_
};
/**
* \brief Identifiers of sensor commands.
*/
enum {
SENSOR_COMMAND__NONE_ = 0,
HT_NXT_ANGLE_RESET,
HT_NXT_ANGLE_CAL,
HT_NXT_SMUX_HALT,
HT_NXT_SMUX_DETECT,
HT_NXT_SMUX_RUN,
WEDO_HUB_OUT_OFF,
WEDO_HUB_OUT_ON,
WEDO_HUB_CLEAR_ERR,
MI_XG1300L_RESET,
MI_XG1300L_ACCEL_2G,
MI_XG1300L_ACCEL_4G,
MI_XG1300L_ACCEL_8G,
MS_ABSOLUTE_IMU_BEGIN_COMP_CAL,
MS_ABSOLUTE_IMU_END_COMP_CAL,
MS_ABSOLUTE_IMU_ACCEL_2G,
MS_ABSOLUTE_IMU_ACCEL_4G,
MS_ABSOLUTE_IMU_ACCEL_8G,
MS_ABSOLUTE_IMU_ACCEL_16G,
MS_ANGLE_RESET,
MS_LIGHT_ARRAY_CAL_WHITE,
MS_LIGHT_ARRAY_CAL_BLACK,
MS_LIGHT_ARRAY_SLEEP,
MS_LIGHT_ARRAY_WAKE,
MS_LIGHT_ARRAY_60HZ,
MS_LIGHT_ARRAY_50HZ,
MS_LIGHT_ARRAY_UNIVERSAL,
MS_LINE_LEADER_CAL_WHITE,
MS_LINE_LEADER_CAL_BLACK,
MS_LINE_LEADER_SLEEP,
MS_LINE_LEADER_WAKE,
MS_LINE_LEADER_INV_COL,
MS_LINE_LEADER_RST_COL,
MS_LINE_LEADER_SNAP,
MS_LINE_LEADER_60HZ,
MS_LINE_LEADER_50HZ,
MS_LINE_LEADER_UNIVERSAL,
MS_NXTCAM_TRACK_ON,
MS_NXTCAM_TRACK_OFF,
MS_NXTCAM_TRACK_OBJ,
MS_NXTCAM_TRACK_LINE,
MS_NXTCAM_SORT_SIZE,
MS_NXTCAM_SORT_COL,
MS_PIXY_ADAPTER_SORT_SIZE,
MS_PIXY_ADAPTER_SORT_COL,
SENSOR_COMMAND__COUNT_, /**< Count of sensor commands. */
SENSOR_COMMAND__UNKNOWN_ = SENSOR_COMMAND__COUNT_
};
/**
* \brief Read "bin_data" attribute of the sensor.
* \param sn Sequence number.
* \param[out] buf Buffer for result.
* \param sz Buffer size.
* \return Count of read bytes.
*/
extern size_t get_sensor_bin_data( uint8_t sn, byte *buf, size_t sz );
/**