ardupilot/libraries/AP_Camera/AP_Camera.h

/// @file	AP_Camera.h
/// @brief	Photo or video camera manager, with EEPROM-backed storage of constants.
#pragma once

#include "AP_Camera_config.h"

#if AP_CAMERA_ENABLED

#include <AP_Common/Location.h>
#include <AP_Logger/LogStructure.h>
#include <AP_Param/AP_Param.h>
#include <GCS_MAVLink/GCS_MAVLink.h>
#include "AP_Camera_Params.h"

#define AP_CAMERA_MAX_INSTANCES             2       // maximum number of camera backends

// declare backend classes
class AP_Camera_Backend;
class AP_Camera_Servo;
class AP_Camera_Relay;
class AP_Camera_SoloGimbal;
class AP_Camera_Mount;

/// @class	Camera
/// @brief	Object managing a Photo or video camera
class AP_Camera {

    // declare backends as friends
    friend class AP_Camera_Backend;
    friend class AP_Camera_Servo;
    friend class AP_Camera_Relay;
    friend class AP_Camera_SoloGimbal;
    friend class AP_Camera_Mount;
    friend class AP_Camera_MAVLink;

public:

    // constructor
    AP_Camera(uint32_t _log_camera_bit);

    /* Do not allow copies */
    CLASS_NO_COPY(AP_Camera);

    // get singleton instance
    static AP_Camera *get_singleton() { return _singleton; }

    // enums
    enum class CameraType {
        NONE = 0,           // None
        SERVO = 1,          // Servo/PWM controlled camera
        RELAY = 2,          // Relay controlled camera
        SOLOGIMBAL = 3,     // GoPro in Solo gimbal
        MOUNT = 4,          // Mount library implements camera
        MAVLINK = 5,        // MAVLink enabled camera
    };

    // returns camera type of the given instance
    CameraType get_type(uint8_t instance) const;

    // detect and initialise backends
    void init();

    // update - to be called periodically at 50Hz
    void update();

    // MAVLink methods
    void handle_message(mavlink_channel_t chan, const mavlink_message_t &msg);
    void send_feedback(mavlink_channel_t chan) const;

    // configure camera
    void configure(float shooting_mode, float shutter_speed, float aperture, float ISO, float exposure_type, float cmd_id, float engine_cutoff_time);
    void configure(uint8_t instance, float shooting_mode, float shutter_speed, float aperture, float ISO, float exposure_type, float cmd_id, float engine_cutoff_time);

    // handle camera control
    void control(float session, float zoom_pos, float zoom_step, float focus_lock, float shooting_cmd, float cmd_id);
    void control(uint8_t instance, float session, float zoom_pos, float zoom_step, float focus_lock, float shooting_cmd, float cmd_id);

    // set camera trigger distance in a mission
    void set_trigger_distance(float distance_m) { set_trigger_distance(primary, distance_m); }
    void set_trigger_distance(uint8_t instance, float distance_m);

    // momentary switch to change camera between picture and video modes
    void cam_mode_toggle() { cam_mode_toggle(primary); }
    void cam_mode_toggle(uint8_t instance);

    // take a picture
    void take_picture() { take_picture(primary); }
    void take_picture(uint8_t instance);

    // start/stop recording video
    // start_recording should be true to start recording, false to stop recording
    bool record_video(bool start_recording) { return record_video(primary, start_recording); }
    bool record_video(uint8_t instance, bool start_recording);

    // zoom in, out or hold
    // zoom out = -1, hold = 0, zoom in = 1
    bool set_zoom_step(int8_t zoom_step) { return set_zoom_step(primary, zoom_step); }
    bool set_zoom_step(uint8_t instance, int8_t zoom_step);

    // focus in, out or hold
    // focus in = -1, focus hold = 0, focus out = 1
    bool set_manual_focus_step(int8_t focus_step) { return set_manual_focus_step(primary, focus_step); }
    bool set_manual_focus_step(uint8_t instance, int8_t focus_step);

    // auto focus
    bool set_auto_focus() { return set_auto_focus(primary); }
    bool set_auto_focus(uint8_t instance);

    // set if vehicle is in AUTO mode
    void set_is_auto_mode(bool enable) { _is_in_auto_mode = enable; }

    // parameter var table
    static const struct AP_Param::GroupInfo var_info[];

protected:

    // return true if vehicle mode allows trigg dist
    bool vehicle_mode_ok_for_trigg_dist() const { return (_auto_mode_only == 0) || _is_in_auto_mode; }

    // return maximum acceptable vehicle roll angle (in degrees)
    int16_t get_roll_max() const { return _max_roll; }

    // return log bit
    uint32_t get_log_camera_bit() const { return log_camera_bit; }

    // parameters for backends
    AP_Camera_Params _params[AP_CAMERA_MAX_INSTANCES];

private:

    static AP_Camera *_singleton;

    // parameters
    AP_Int8 _auto_mode_only;    // if 1: trigger by distance only if in AUTO mode.
    AP_Int16 _max_roll;         // Maximum acceptable roll angle when trigging camera

    // check instance number is valid
    bool is_valid_instance(uint8_t instance) const;

    // perform any required parameter conversion
    void convert_params();

    uint8_t primary;                    // index of primary backend (normally the first one)
    bool _is_in_auto_mode;              // true if in AUTO mode
    uint32_t log_camera_bit;            // logging bit (from LOG_BITMASK) to enable camera logging
    uint8_t _num_instances;             // number of camera backends instantiated
    AP_Camera_Backend *_backends[AP_CAMERA_MAX_INSTANCES];  // pointers to instantiated backends
};

namespace AP {
AP_Camera *camera();
};

#endif