2016-06-23 04:41:33 -03:00
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#pragma once
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#include <AP_Common/AP_Common.h>
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#include <AP_Common/Location.h>
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2016-06-23 04:41:33 -03:00
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#include <AP_Math/AP_Math.h>
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#include <GCS_MAVLink/GCS_MAVLink.h>
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#define AC_POLYFENCE_FENCE_POINT_PROTOCOL_SUPPORT 1
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enum class AC_PolyFenceType {
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END_OF_STORAGE = 99,
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POLYGON_INCLUSION = 98,
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POLYGON_EXCLUSION = 97,
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CIRCLE_EXCLUSION = 96,
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RETURN_POINT = 95,
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CIRCLE_INCLUSION = 94,
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};
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// a FenceItem is just a means of passing data about an item into
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// and out of the polyfence loader. It uses a AC_PolyFenceType to
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// indicate the item type, assuming each fence type is made up of
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// only one sort of item.
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// TODO: make this a union (or use subclasses) to save memory
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class AC_PolyFenceItem {
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public:
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AC_PolyFenceType type;
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Vector2l loc;
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uint8_t vertex_count;
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float radius;
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};
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class AC_PolyFence_loader
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{
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public:
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AC_PolyFence_loader(AP_Int8 &total) :
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_total(total) {}
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AC_PolyFence_loader(const AC_PolyFence_loader &other) = delete;
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AC_PolyFence_loader &operator=(const AC_PolyFence_loader&) = delete;
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void init();
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// methods primarily for MissionItemProtocol_Fence to use:
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// return the total number of points stored
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uint16_t num_stored_items() const { return _eeprom_item_count; }
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bool get_item(const uint16_t seq, AC_PolyFenceItem &item) WARN_IF_UNUSED;
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///
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/// exclusion polygons
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///
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/// returns number of polygon exclusion zones defined
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uint8_t get_exclusion_polygon_count() const {
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return _num_loaded_exclusion_boundaries;
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}
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/// returns pointer to array of exclusion polygon points and num_points is filled in with the number of points in the polygon
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/// points are offsets in cm from EKF origin in NE frame
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Vector2f* get_exclusion_polygon(uint16_t index, uint16_t &num_points) const;
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/// return system time of last update to the exclusion polygon points
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uint32_t get_exclusion_polygon_update_ms() const {
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return _load_time_ms;
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}
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///
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/// inclusion polygons
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///
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/// returns number of polygon inclusion zones defined
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uint8_t get_inclusion_polygon_count() const {
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return _num_loaded_inclusion_boundaries;
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}
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/// returns pointer to array of inclusion polygon points and num_points is filled in with the number of points in the polygon
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/// points are offsets in cm from EKF origin in NE frame
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Vector2f* get_inclusion_polygon(uint16_t index, uint16_t &num_points) const;
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/// return system time of last update to the inclusion polygon points
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uint32_t get_inclusion_polygon_update_ms() const {
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return _load_time_ms;
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}
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///
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/// exclusion circles
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///
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/// returns number of exclusion circles defined
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uint8_t get_exclusion_circle_count() const {
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return _num_loaded_circle_exclusion_boundaries;
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}
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/// returns the specified exclusion circle
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/// center is offsets in cm from EKF origin in NE frame, radius is in meters
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bool get_exclusion_circle(uint8_t index, Vector2f ¢er_pos_cm, float &radius) const;
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/// return system time of last update to the exclusion circles
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uint32_t get_exclusion_circle_update_ms() const {
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return _load_time_ms;
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}
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///
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/// inclusion circles
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///
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/// returns number of inclusion circles defined
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uint8_t get_inclusion_circle_count() const {
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return _num_loaded_circle_inclusion_boundaries;
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}
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/// returns the specified inclusion circle
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/// center is offsets in cm from EKF origin in NE frame, radius is in meters
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bool get_inclusion_circle(uint8_t index, Vector2f ¢er_pos_cm, float &radius) const;
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///
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/// mavlink
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///
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/// handler for polygon fence messages with GCS
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void handle_msg(class GCS_MAVLINK &link, const mavlink_message_t& msg);
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// breached() - returns true if the vehicle has breached any fence
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bool breached() const WARN_IF_UNUSED;
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// breached(Location&) - returns true if location is outside the boundary
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bool breached(const Location& loc) const WARN_IF_UNUSED;
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// returns true if a polygonal include fence could be returned
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bool inclusion_boundary_available() const WARN_IF_UNUSED {
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return _num_loaded_inclusion_boundaries != 0;
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}
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// loaded - returns true if the fences have been loaded from
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// storage and are available for use
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bool loaded() const WARN_IF_UNUSED {
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return _load_time_ms != 0;
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};
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// maximum number of fence points we can store in eeprom
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uint16_t max_items() const;
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// write_fence - validate and write count new_items to permanent storage
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bool write_fence(const AC_PolyFenceItem *new_items, uint16_t count) WARN_IF_UNUSED;
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/*
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* Loaded Fence functionality
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*
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* methods and members to do with fences stored in memory. The
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* locations are translated into offset-from-origin-in-metres
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*/
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// load polygon points stored in eeprom into
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// _loaded_offsets_from_origin and perform validation. returns
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// true if load successfully completed
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bool load_from_eeprom() WARN_IF_UNUSED;
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// allow threads to lock against AHRS update
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HAL_Semaphore &get_loaded_fence_semaphore(void) {
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return _loaded_fence_sem;
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}
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// call @10Hz to check for fence load being valid
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void update();
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private:
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// multi-thread access support
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HAL_Semaphore _loaded_fence_sem;
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// breached(Vector2f&) - returns true of pos_cm (an offset in cm from the EKF origin) breaches any fence
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bool breached(const Vector2f& pos_cm) const WARN_IF_UNUSED;
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/*
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* Fence storage Index related functions
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*/
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// FenceIndex - a class used to store information about a fence in
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// fence storage.
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class FenceIndex {
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public:
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AC_PolyFenceType type;
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uint16_t count;
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uint16_t storage_offset;
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};
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// index_fence_count - returns the number of fences of type
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// currently in the index
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uint16_t index_fence_count(const AC_PolyFenceType type);
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// void_index - free resources for the index, forcing a reindex
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// (typically via check_indexed)
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void void_index() {
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delete[] _index;
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_index = nullptr;
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_index_attempted = false;
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_indexed = false;
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}
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// check_indexed - read eeprom and create index if the index does
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// not already exist
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bool check_indexed() WARN_IF_UNUSED;
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// find_first_fence - return first fence in index of specific type
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FenceIndex *find_first_fence(const AC_PolyFenceType type) const;
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// find_index_for_seq - returns true if seq is contained within a
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// fence. If it is, entry will be the relevant FenceIndex. i
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// will be the offset within _loaded_offsets_from_origin where the
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// first point in the fence is found
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bool find_index_for_seq(const uint16_t seq, const FenceIndex *&entry, uint16_t &i) const WARN_IF_UNUSED;
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// find_storage_offset_for_seq - uses the index to return an
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// offset into storage for an item
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bool find_storage_offset_for_seq(const uint16_t seq, uint16_t &offset, AC_PolyFenceType &type, uint16_t &vertex_count_offset) const WARN_IF_UNUSED;
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uint16_t sum_of_polygon_point_counts_and_returnpoint();
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/*
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* storage-related methods - dealing with fence_storage
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*/
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// new_fence_storage_magic - magic number indicating fence storage
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// has been formatted for use by polygon fence storage code.
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// FIXME: ensure this is out-of-band for old lat/lon point storage
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static const uint8_t new_fence_storage_magic = 235;
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// validate_fence - returns true if new_items look completely valid
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bool validate_fence(const AC_PolyFenceItem *new_items, uint16_t count) const WARN_IF_UNUSED;
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// _eos_offset - stores the offset in storage of the
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// end-of-storage marker. Used by low-level manipulation code to
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// extend storage
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uint16_t _eos_offset;
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// formatted - returns true if the fence storage space seems to be
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// formatted for new-style fence storage
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bool formatted() const WARN_IF_UNUSED;
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// format - format the storage space for use by
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// the new polyfence code
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bool format() WARN_IF_UNUSED;
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/*
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* Loaded Fence functionality
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*
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* methods and members to do with fences stored in memory. The
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* locations are translated into offset-from-origin-in-metres
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*/
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// remove resources dedicated to the transformed fences - for
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// example, in _loaded_offsets_from_origin
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void unload();
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// pointer into _loaded_offsets_from_origin where the return point
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// can be found:
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Vector2f *_loaded_return_point;
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class InclusionBoundary {
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public:
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Vector2f *points; // pointer into the _loaded_offsets_from_origin array
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uint8_t count; // count of points in the boundary
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};
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InclusionBoundary *_loaded_inclusion_boundary;
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uint8_t _num_loaded_inclusion_boundaries;
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class ExclusionBoundary {
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public:
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Vector2f *points; // pointer into the _loaded_offsets_from_origin array
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uint8_t count; // count of points in the boundary
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};
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ExclusionBoundary *_loaded_exclusion_boundary;
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uint8_t _num_loaded_exclusion_boundaries;
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// _loaded_offsets_from_origin - stores x/y offset-from-origin
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// coordinate pairs. Various items store their locations in this
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// allocation - the polygon boundaries and the return point, for
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// example.
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Vector2f *_loaded_offsets_from_origin;
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class ExclusionCircle {
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public:
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Vector2f pos_cm;
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float radius;
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};
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ExclusionCircle *_loaded_circle_exclusion_boundary;
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uint8_t _num_loaded_circle_exclusion_boundaries;
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class InclusionCircle {
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public:
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Vector2f pos_cm;
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float radius;
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};
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InclusionCircle *_loaded_circle_inclusion_boundary;
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uint8_t _num_loaded_circle_inclusion_boundaries;
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// _load_attempted - true if we have attempted to load the fences
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// from storage into _loaded_circle_exclusion_boundary,
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// _loaded_offsets_from_origin etc etc
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bool _load_attempted;
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// _load_time_ms - from millis(), system time when fence load last
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// succeeded. Will be zero if fences are not loaded
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uint32_t _load_time_ms;
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// read_scaled_latlon_from_storage - reads a latitude/longitude
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// from offset in permanent storage, transforms them into an
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// offset-from-origin and deposits the result into pos_cm.
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// read_offset is increased by the storage space used by the
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// latitude/longitude
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bool read_scaled_latlon_from_storage(const Location &origin,
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uint16_t &read_offset,
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Vector2f &pos_cm) WARN_IF_UNUSED;
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// read_polygon_from_storage - reads vertex_count
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// latitude/longitude points from offset in permanent storage,
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// transforms them into an offset-from-origin and deposits the
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// results into next_storage_point.
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bool read_polygon_from_storage(const Location &origin,
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uint16_t &read_offset,
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const uint8_t vertex_count,
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Vector2f *&next_storage_point) WARN_IF_UNUSED;
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/*
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* Upgrade functions - attempt to keep user's fences when
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* upgrading to new firmware
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*/
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// convert_to_new_storage - will attempt to change a pre-existing
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// stored fence to the new storage format (so people don't lose
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// their fences when upgrading)
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bool convert_to_new_storage() WARN_IF_UNUSED;
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// load boundary point from eeprom, returns true on successful load
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bool load_point_from_eeprom(uint16_t i, Vector2l& point) WARN_IF_UNUSED;
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#if AC_POLYFENCE_FENCE_POINT_PROTOCOL_SUPPORT
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/*
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* FENCE_POINT protocol compatability
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*/
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void handle_msg_fetch_fence_point(GCS_MAVLINK &link, const mavlink_message_t& msg);
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void handle_msg_fence_point(GCS_MAVLINK &link, const mavlink_message_t& msg);
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// contains_compatible_fence - returns true if the permanent fence
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// storage contains fences that are compatible with the old
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// FENCE_POINT protocol.
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bool contains_compatible_fence() const WARN_IF_UNUSED;
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// get_or_create_include_fence - returns a point to an include
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// fence to be used for the FENCE_POINT-supplied polygon. May
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// format the storage appropriately.
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FenceIndex *get_or_create_include_fence();
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// get_or_create_include_fence - returns a point to a return point
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// to be used for the FENCE_POINT-supplied return point. May
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// format the storage appropriately.
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FenceIndex *get_or_create_return_point();
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#endif
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2016-06-23 04:41:33 -03:00
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2019-08-28 04:22:16 -03:00
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// primitives to write parts of fencepoints out:
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bool write_type_to_storage(uint16_t &offset, AC_PolyFenceType type) WARN_IF_UNUSED;
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bool write_latlon_to_storage(uint16_t &offset, const Vector2l &latlon) WARN_IF_UNUSED;
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bool read_latlon_from_storage(uint16_t &read_offset, Vector2l &latlon) const WARN_IF_UNUSED;
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// methods to write specific types of fencepoint out:
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bool write_eos_to_storage(uint16_t &offset);
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#if AC_POLYFENCE_FENCE_POINT_PROTOCOL_SUPPORT
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// get_return_point - returns latitude/longitude of return point.
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// This works with storage - the returned vector is absolute
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// lat/lon.
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bool get_return_point(Vector2l &ret) WARN_IF_UNUSED;
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#endif
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// _total - reference to FENCE_TOTAL parameter. This is used
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// solely for compatability with the FENCE_POINT protocol
|
2019-05-29 10:02:04 -03:00
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AP_Int8 &_total;
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2019-08-28 04:22:16 -03:00
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uint8_t _old_total;
|
2016-06-23 04:41:33 -03:00
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|
2019-08-28 04:22:16 -03:00
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// scan_eeprom - a method that traverses the fence storage area,
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// calling the supplied callback for each fence found. If the
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// scan fails (for example, the storage is corrupt), then this
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// method will return false.
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FUNCTOR_TYPEDEF(scan_fn_t, void, const AC_PolyFenceType, uint16_t);
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bool scan_eeprom(scan_fn_t scan_fn) WARN_IF_UNUSED;
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// scan_eeprom_count_fences - a static function designed to be
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// massed to scan_eeprom which counts the number of fences and
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// fence items present. The results of this counting appear in _eeprom_fence_count and _eeprom_item_count
|
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void scan_eeprom_count_fences(const AC_PolyFenceType type, uint16_t read_offset);
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uint16_t _eeprom_fence_count;
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uint16_t _eeprom_item_count;
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// scan_eeprom_index_fences - a static function designed to be
|
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// passed to scan_eeprom. _index must be a pointer to
|
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// memory sufficient to hold information about all fences present
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// in storage - so it is expected that scan_eeprom_count_fences
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|
// has been used to count those fences and the allocation already
|
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|
|
// made. After this method has been called _index will
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|
// be filled with information about the fences in the fence
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|
// storage - type, item counts and storage offset.
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|
|
void scan_eeprom_index_fences(const AC_PolyFenceType type, uint16_t read_offset);
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|
// array specifying type of each fence in storage (and a count of
|
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|
|
// items in that fence)
|
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|
|
FenceIndex *_index;
|
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|
|
bool _indexed; // true if indexing successful
|
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|
bool _index_attempted; // true if we attempted to index the eeprom
|
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|
|
// _num_fences - count of the number of fences in _index. This
|
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|
|
// should be equal to _eeprom_fence_count
|
|
|
|
uint16_t _num_fences;
|
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|
|
|
|
|
// count_eeprom_fences - refresh the count of fences in permanent storage
|
|
|
|
bool count_eeprom_fences() WARN_IF_UNUSED;
|
|
|
|
// index_eeprom - (re)allocate and fill in _index
|
|
|
|
bool index_eeprom() WARN_IF_UNUSED;
|
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|
|
uint16_t fence_storage_space_required(const AC_PolyFenceItem *new_items, uint16_t count);
|
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|
|
};
|