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track.h
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track.h
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// Part of readsb, a Mode-S/ADSB/TIS message decoder.
//
// track.h: aircraft state tracking prototypes
//
// Copyright (c) 2019 Michael Wolf <michael@mictronics.de>
//
// This code is based on a detached fork of dump1090-fa.
//
// Copyright (c) 2014-2016 Oliver Jowett <oliver@mutability.co.uk>
//
// This file is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// any later version.
//
// This file is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
// This file incorporates work covered by the following copyright and
// license:
//
// Copyright (C) 2012 by Salvatore Sanfilippo <antirez@gmail.com>
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// * 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.
#ifndef DUMP1090_TRACK_H
#define DUMP1090_TRACK_H
/* Minimum number of repeated Mode A/C replies with a particular Mode A code needed in a
* 1 second period before accepting that code.
*/
#define TRACK_MODEAC_MIN_MESSAGES 4
/* Special value for Rc unknown */
#define RC_UNKNOWN 0
#define ALTITUDE_BARO_RELIABLE_MAX 20
#define POS_RELIABLE_TIMEOUT (60 * MINUTES)
#define TRACK_STALE (15*SECONDS)
#define TRACK_EXPIRE (60*SECONDS)
#define TRACK_EXPIRE_LONG (180*SECONDS)
#define TRACK_EXPIRE_JAERO (33*MINUTES)
#define TRACK_EXPIRE_ROUGH (2 * MINUTES)
#define NOGPS_DWELL (15 * MINUTES)
#define NOGPS_MAX (20)
#define NOGPS_SHOW (17)
int nogps(int64_t now, struct aircraft *a);
// 2.5 seconds maximum between messages used for calculating wind / temperature
#define TRACK_WT_TIMEOUT (2500)
#define RECEIVERIDBUFFER (12)
#ifndef RECENT_RECEIVER_IDS
#define RECENT_RECEIVER_IDS (32)
#endif
typedef struct
{
uint64_t id;
int64_t time;
} idTime;
#define DISCARD_CACHE (4)
#define CPR_CACHE (4)
typedef enum
{
REDUCE_RARE,
REDUCE_OFTEN,
} reduce_freq_t;
// data moves through three states:
// fresh: data is valid. Updates from a less reliable source are not accepted.
// stale: data is valid. Updates from a less reliable source are accepted.
// expired: data is not valid.
typedef struct
{
int64_t updated; /* when it arrived */
int64_t next_reduce_forward; /* when to next forward the data for reduced beast output */
datasource_t source:8; /* where the data came from */
datasource_t last_source:8; /* where the data came from */
int8_t stale; /* if it's stale 1 / 0 */
unsigned padding:8;
int padding2;
} data_validity;
// size must be multiple of 64 bits so it can be aligned in struct aircraft.
// uint16: 0 to 65535
#define _gs_factor (10.0f) // 6000 to 60000
#define _track_factor (100.0f) // 360 -> 36000
// int16: -32768 to 32767
#define _alt_factor (1/6.25f) // 200000 to 32000
#define _rate_factor (1/8.0f) // 262136 to 32767
#define _roll_factor (100.0f) // 180 to 18000
/* Structure representing one point in the aircraft trace */
struct state
{
int64_t timestamp:48;
//struct state_flags flags; // 16 bits
unsigned on_ground:1;
unsigned stale:1;
unsigned leg_marker:1;
unsigned gs_valid:1;
unsigned track_valid:1;
unsigned baro_alt_valid:1;
unsigned baro_rate_valid:1;
unsigned geom_alt_valid:1;
unsigned geom_rate_valid:1;
unsigned roll_valid:1;
unsigned ias_valid:1;
unsigned padding:5;
int32_t lat;
int32_t lon;
uint16_t gs;
uint16_t track;
int16_t baro_alt;
int16_t baro_rate;
int16_t geom_alt;
int16_t geom_rate;
unsigned ias:12;
int roll:12;
addrtype_t addrtype:5;
int padding2:3;
#if defined(TRACKS_UUID)
uint32_t receiverId;
#endif
} __attribute__ ((__packed__));
struct state_all
{
char callsign[8]; // Flight number
uint16_t squawk; // Squawk
int16_t nav_altitude_mcp; // FCU/MCP selected altitude
int16_t nav_altitude_fms; // FMS selected altitude
int16_t nav_qnh; // Altimeter setting (QNH/QFE), millibars
uint16_t nav_heading; // target heading, degrees (0-359)
uint16_t mach;
int16_t track_rate; // Rate of change of ground track, degrees/second
uint16_t mag_heading; // Magnetic heading
uint16_t true_heading; // True heading
int wind_direction:10;
int wind_speed:10;
int oat:10;
int tat:10;
unsigned category:8; // Aircraft category A0 - D7 encoded as a single hex byte. 00 = unset
unsigned pos_nic:8; // NIC of last computed position
unsigned pos_rc:16; // Rc of last computed position
emergency_t emergency:3; // Emergency/priority status
nav_modes_t nav_modes:7; // enabled modes (autopilot, vnav, etc)
airground_t airground:2; // air/ground status
nav_altitude_source_t nav_altitude_src:3; // source of altitude used by automation
sil_type_t sil_type:3; // SIL supplement from TSS or opstatus
unsigned tas:12;
unsigned adsb_version:4; // ADS-B version (from ADS-B operational status); -1 means no ADS-B messages seen
unsigned adsr_version:4; // As above, for ADS-R messages
unsigned tisb_version:4; // As above, for TIS-B messages
unsigned nic_a : 1; // NIC supplement A from opstatus
unsigned nic_c : 1; // NIC supplement C from opstatus
unsigned nic_baro : 1; // NIC baro supplement from TSS or opstatus
unsigned nac_p : 4; // NACp from TSS or opstatus
unsigned nac_v : 3; // NACv from airborne velocity or opstatus
unsigned sil : 2; // SIL from TSS or opstatus
unsigned gva : 2; // GVA from opstatus
unsigned sda : 2; // SDA from opstatus
unsigned alert : 1; // FS Flight status alert bit
unsigned spi : 1; // FS Flight status SPI (Special Position Identification) bit
unsigned callsign_valid:1;
unsigned tas_valid:1;
unsigned mach_valid:1;
unsigned track_valid:1;
unsigned track_rate_valid:1;
unsigned mag_heading_valid:1;
unsigned true_heading_valid:1;
unsigned nic_a_valid:1;
unsigned nic_c_valid:1;
unsigned nic_baro_valid:1;
unsigned nac_p_valid:1;
unsigned nac_v_valid:1;
unsigned sil_valid:1;
unsigned gva_valid:1;
unsigned sda_valid:1;
unsigned squawk_valid:1;
unsigned emergency_valid:1;
unsigned airground_valid:1;
unsigned nav_qnh_valid:1;
unsigned nav_altitude_mcp_valid:1;
unsigned nav_altitude_fms_valid:1;
unsigned nav_altitude_src_valid:1;
unsigned nav_heading_valid:1;
unsigned nav_modes_valid:1;
unsigned position_valid:1; // used for position accuracy stuff, position is in small state struct
unsigned alert_valid:1;
unsigned spi_valid:1;
unsigned wind_valid:1;
unsigned temp_valid:1;
} __attribute__ ((__packed__));
#define SFOUR (4)
typedef struct fourState {
struct state no[SFOUR];
struct state_all zeroAll;
} fourState;
typedef struct traceBuffer {
int len;
fourState *trace;
} traceBuffer;
static inline int getFourStates(int points) {
return ((points + SFOUR - 1) / SFOUR);
}
static inline int alignSFOUR(int value) {
return ((value + SFOUR - 1) / SFOUR) * SFOUR;
}
static inline ssize_t stateBytes(int points) {
return getFourStates(points) * sizeof(fourState);
}
static inline struct state *getState(fourState *buffer, int position) {
return &buffer[position / SFOUR].no[position % SFOUR];
}
static inline struct state_all *getStateAll(fourState *buffer, int position) {
if (position % SFOUR == 0)
return &buffer[position / SFOUR].zeroAll;
else
return NULL;
}
typedef struct stateChunk {
unsigned char *compressed;
int compressed_size;
int numStates;
int64_t firstTimestamp;
int64_t lastTimestamp;
} stateChunk;
struct cpr_cache {
uint32_t cpr_lat;
uint32_t cpr_lon;
int64_t ts;
uint64_t receiverId;
};
struct traceCacheEntry {
int64_t ts;
int32_t offset;
int32_t len;
int32_t leg_marker;
};
struct traceCache {
int32_t entriesLen;
int32_t json_max;
int32_t firstRecentCache;
int32_t totalAlloc;
int64_t referenceTs;
struct traceCacheEntry *entries;
char *json;
};
/* Structure used to describe the state of one tracked aircraft */
struct aircraft
{
struct aircraft *next; // Next aircraft in our linked list
uint32_t addr; // ICAO address
addrtype_t addrtype; // highest priority address type seen for this aircraft
int64_t seen; // Time (millis) at which the last packet with reliable address was received
int64_t seen_pos; // Time (millis) at which the last position was received
uint32_t messages; // Number of Mode S messages received
int32_t onActiveList;
uint32_t receiverCount;
uint32_t category; // Aircraft category A0 - D7 encoded as a single hex byte. 00 = unset
//
int64_t category_updated;
// ----
int64_t trace_next_mw; // timestamp for next full trace write to /run (tmpfs)
int64_t trace_next_perm; // timestamp for next trace write to history_dir (disk)
int64_t lastSignalTimestamp; // timestamp the last message with RSSI was received
int64_t trace_perm_last_timestamp; // timestamp for last trace point written to disk
fourState *trace_current; // uncompressed most recent points in the trace
stateChunk *trace_chunks; // compressed chunks of trace
int32_t trace_current_max;
int32_t trace_current_len; // number of points in our uncompressed most recent trace portion
int32_t trace_len; // total number of points in the trace
int32_t trace_chunk_len; // how many stateChunks are saved for this aircraft
int32_t trace_write; // signal for writing the trace
int32_t trace_writeCounter; // how many points where added since the complete trace was written to memory
int32_t baro_alt; // Altitude (Baro)
int32_t alt_reliable;
int32_t geom_alt; // Altitude (Geometric)
int32_t geom_delta; // Difference between Geometric and Baro altitudes
uint32_t signalNext; // next index of signalLevel to use
// ----
double signalLevel[8]; // Last 8 Signal Amplitudes
// ----
float rr_lat; // very rough receiver latitude
float rr_lon; // very rough receiver longitude
int64_t rr_seen; // when we noted this rough position
int64_t seenAdsbReliable; // last time we saw a reliable SOURCE_ADSB positions from this aircraft
int64_t addrtype_updated;
float tat;
uint16_t nogpsCounter;
uint16_t receiverIdsNext;
int64_t seenPosReliable; // last time we saw a reliable position
uint64_t lastPosReceiverId;
// ---- the following section has 9 instead of 8 times 8 bytes. but that's not critical as long as the 8 byte alignment is ok
uint32_t pos_nic; // NIC of last computed position
uint32_t pos_rc; // Rc of last computed position
double lat; // Coordinates obtained from CPR encoded data
double lon; // Coordinates obtained from CPR encoded data
float pos_reliable_odd; // Number of good global CPRs, indicates position reliability
float pos_reliable_even;
int16_t traceWrittenForYesterday; // the permanent trace has been written for the previous day
uint16_t mlatEPU;
float gs_last_pos; // Save a groundspeed associated with the last position
float wind_speed;
float wind_direction;
int32_t wind_altitude;
float oat;
int64_t wind_updated;
int64_t oat_updated;
int64_t tat_updated;
// ----
int32_t baro_rate; // Vertical rate (barometric)
int32_t geom_rate; // Vertical rate (geometric)
uint32_t ias;
uint32_t tas;
uint32_t squawk; // Squawk
uint32_t squawkTentative; // require the same squawk code twice to accept it
uint32_t nav_altitude_mcp; // FCU/MCP selected altitude
uint32_t nav_altitude_fms; // FMS selected altitude
uint32_t cpr_odd_lat;
uint32_t cpr_odd_lon;
uint32_t cpr_odd_nic;
uint32_t cpr_odd_rc;
uint32_t cpr_even_lat;
uint32_t cpr_even_lon;
uint32_t cpr_even_nic;
uint32_t cpr_even_rc;
// ----
float nav_qnh; // Altimeter setting (QNH/QFE), millibars
float nav_heading; // target heading, degrees (0-359)
float gs;
float mach;
float track; // Ground track
float track_rate; // Rate of change of ground track, degrees/second
float roll; // Roll angle, degrees right
float mag_heading; // Magnetic heading
float true_heading; // True heading
float calc_track; // Calculated Ground track
int64_t next_reduce_forward_DF11;
char callsign[16]; // Flight number
// ----
emergency_t emergency; // Emergency/priority status
airground_t airground; // air/ground status
nav_modes_t nav_modes; // enabled modes (autopilot, vnav, etc)
cpr_type_t cpr_odd_type;
cpr_type_t cpr_even_type;
nav_altitude_source_t nav_altitude_src; // source of altitude used by automation
int32_t modeA_hit; // did our squawk match a possible mode A reply in the last check period?
int32_t modeC_hit; // did our altitude match a possible mode C reply in the last check period?
// data extracted from opstatus etc
int32_t adsb_version; // ADS-B version (from ADS-B operational status); -1 means no ADS-B messages seen
int32_t adsr_version; // As above, for ADS-R messages
int32_t tisb_version; // As above, for TIS-B messages
heading_type_t adsb_hrd; // Heading Reference Direction setting (from ADS-B operational status)
heading_type_t adsb_tah; // Track Angle / Heading setting (from ADS-B operational status)
int32_t globe_index; // custom index of the planes area on the globe
sil_type_t sil_type; // SIL supplement from TSS or opstatus
uint32_t nic_a : 1; // nic supplement a from opstatus
uint32_t nic_c : 1; // nic supplement c from opstatus
uint32_t nic_baro : 1; // nic baro supplement from tss or opstatus
uint32_t nac_p : 4; // nacp from tss or opstatus
uint32_t nac_v : 3; // nacv from airborne velocity or opstatus
uint32_t sil : 2; // sil from tss or opstatus
uint32_t gva : 2; // gva from opstatus
uint32_t sda : 2; // sda from opstatus
// 16 bit
uint32_t alert : 1; // fs flight status alert bit
uint32_t spi : 1; // fs flight status spi (special position identification) bit
uint32_t pos_surface : 1; // (a->airground == ag_ground) associated with current position
uint32_t last_cpr_type : 2; // mm->cpr_type associated with current position
uint32_t tracePosBuffered : 1; // denotes if a->trace[a->trace_len] has a valid state buffered in it
uint32_t surfaceCPR_allow_ac_rel : 1; // allow surface cpr relative to last known aircraft location
uint32_t localCPR_allow_ac_rel : 1; // allow local cpr relative to last known aircraft location
// 24 bit
uint32_t last_message_crc_fixed : 1;
uint32_t is_df18_exception : 1;
uint32_t padding_b : 6;
// 32 bit !!
// ----
data_validity callsign_valid;
data_validity baro_alt_valid;
data_validity geom_alt_valid;
data_validity geom_delta_valid;
data_validity gs_valid;
data_validity ias_valid;
data_validity tas_valid;
data_validity mach_valid;
data_validity track_valid;
data_validity track_rate_valid;
data_validity roll_valid;
data_validity mag_heading_valid;
data_validity true_heading_valid;
data_validity baro_rate_valid;
data_validity geom_rate_valid;
data_validity nic_a_valid;
data_validity nic_c_valid;
data_validity nic_baro_valid;
data_validity nac_p_valid;
data_validity nac_v_valid;
data_validity sil_valid;
data_validity gva_valid;
data_validity sda_valid;
data_validity squawk_valid;
data_validity emergency_valid;
data_validity airground_valid;
data_validity nav_qnh_valid;
data_validity nav_altitude_mcp_valid;
data_validity nav_altitude_fms_valid;
data_validity nav_altitude_src_valid;
data_validity nav_heading_valid;
data_validity nav_modes_valid;
data_validity cpr_odd_valid; // Last seen even CPR message
data_validity cpr_even_valid; // Last seen odd CPR message
data_validity position_valid;
data_validity alert_valid;
data_validity spi_valid;
int64_t seenPosGlobal; // seen global CPR or other hopefully reliable position
double latReliable; // last reliable position based on json_reliable threshold
double lonReliable; // last reliable position based on json_reliable threshold
char typeCode[4];
char registration[12];
char typeLong[64];
uint16_t receiverIds[RECEIVERIDBUFFER]; // RECEIVERIDBUFFER = 12
int64_t next_reduce_forward_status;
unsigned char acas_ra[7]; // mm->MV from last acas RA message
unsigned char acas_flags; // maybe use for some flags, would be padding otherwise
data_validity acas_ra_valid;
float gs_reliable;
float track_reliable;
uint64_t canary1;
int64_t squawkTentativeChanged;
double magneticDeclination;
int64_t updatedDeclination;
uint16_t pos_nic_reliable;
uint16_t pos_rc_reliable;
int32_t trackUnreliable;
uint64_t receiverId;
// previous position and timestamp
double prev_lat; // previous latitude
double prev_lon; // previous longitude
int64_t prev_pos_time; // time the previous position was received
int32_t speedUnreliable;
uint32_t lastStatusDiscarded;
int64_t nextJsonPortOutput;
float receiver_distance;
float receiver_direction;
data_validity mlat_pos_valid;
double mlat_lat;
double mlat_lon;
data_validity pos_reliable_valid;
// last reliable SOURCE_ADSB positions from this aircraft
double seenAdsbLat;
double seenAdsbLon;
int64_t lastStatusTs;
int64_t lastOverrideTs;
// DANGER, this section is zeroed when saving and loading data
char zeroStart;
char ownOp[64];
char year[4];
uint16_t dbFlags;
float messageRate;
uint16_t messageRateAcc[MESSAGE_RATE_CALC_POINTS];
int64_t nextMessageRateCalc;
uint32_t disc_cache_index;
uint32_t cpr_cache_index;
struct cpr_cache disc_cache[DISCARD_CACHE];
struct cpr_cache cpr_cache[CPR_CACHE];
// keep trace cache after cpr / disc cache
// stuff above is put into
struct traceCache traceCache;
uint32_t trace_chunk_overall_bytes;
int8_t initialTraceWriteDone;
#if defined(PRINT_UUIDS)
int recentReceiverIdsNext;
idTime recentReceiverIds[RECENT_RECEIVER_IDS];
#endif
char zeroEnd;
};
/* Mode A/C tracking is done separately, not via the aircraft list,
* and via a flat array rather than a list since there are only 4k possible values
* (nb: we ignore the ident/SPI bit when tracking)
*/
extern uint32_t modeAC_count[4096];
extern uint32_t modeAC_match[4096];
extern uint32_t modeAC_age[4096];
/* is this bit of data valid? */
static inline void
updateValidity (data_validity *v, int64_t now, int64_t expiration_timeout)
{
if (v->source == SOURCE_INVALID)
return;
int stale = (now > v->updated + TRACK_STALE);
if (stale != v->stale)
v->stale = stale;
if (v->source == SOURCE_JAERO) {
if (now > v->updated + Modes.trackExpireJaero)
v->source = SOURCE_INVALID;
} else if (v->source == SOURCE_INDIRECT && Modes.debug_rough_receiver_location) {
if (now > v->updated + TRACK_EXPIRE_ROUGH)
v->source = SOURCE_INVALID;
} else {
if (now > v->updated + expiration_timeout)
v->source = SOURCE_INVALID;
}
}
/* is this bit of data valid? */
static inline int
trackDataValid (const data_validity *v)
{
return (v->source != SOURCE_INVALID);
}
static inline int posReliable(struct aircraft *a) {
if (!trackDataValid(&a->position_valid)) {
return 0;
}
if (a->position_valid.source == SOURCE_JAERO
|| a->position_valid.source == SOURCE_MLAT
|| a->position_valid.source == SOURCE_INDIRECT) {
return 1;
}
int reliable = Modes.json_reliable;
// disable this extra requirement for the moment:
if (0 && Modes.position_persistence > reliable && reliable > 1 && (a->addr & MODES_NON_ICAO_ADDRESS || a->addrtype == ADDR_TISB_ICAO || a->addrtype == ADDR_ADSR_ICAO)) {
reliable += 1; // require additional reliability for non-icao hex addresses
}
if (a->pos_reliable_odd >= reliable && a->pos_reliable_even >= reliable) {
return 1;
}
return 0;
}
static inline int altBaroReliable(struct aircraft *a) {
if (!trackDataValid(&a->baro_alt_valid))
return 0;
if (a->position_valid.source == SOURCE_JAERO)
return 1;
if (a->alt_reliable >= 2 * Modes.json_reliable)
return 1;
return 0;
}
static inline int
trackVState (int64_t now, const data_validity *v, const data_validity *pos_valid)
{
if (pos_valid->source <= SOURCE_JAERO) {
// allow normal expiration time for shitty position sources
return (v->source != SOURCE_INVALID);
}
// reduced expiration time for good sources
return (v->source != SOURCE_INVALID && now < v->updated + 35 * SECONDS);
}
static inline int altBaroReliableTrace(int64_t now, struct aircraft *a) {
if (altBaroReliable(a) && trackVState(now, &a->baro_alt_valid, &a->pos_reliable_valid))
return 1;
else
return 0;
}
/* what's the age of this data, in milliseconds? */
static inline int64_t
trackDataAge (int64_t now, const data_validity *v)
{
if (v->updated >= now)
return 0;
return (now - v->updated);
}
static inline double toRad(double degrees) {
return degrees * (M_PI / 180.0);
}
static inline double toDeg(double radians) {
return radians * (180.0 / M_PI);
}
// calculate great circle distance in meters
//
void to_state(struct aircraft *a, struct state *new, int64_t now, int on_ground, float track, int stale);
void to_state_all(struct aircraft *a, struct state_all *new, int64_t now);
void from_state_all(struct state_all *in, struct state *in2, struct aircraft *a , int64_t ts);
/* Update aircraft state from data in the provided mesage.
* Return the tracked aircraft.
*/
struct modesMessage;
struct aircraft *trackUpdateFromMessage (struct modesMessage *mm);
void trackMatchAC(int64_t now);
void trackRemoveStale(int64_t now);
void updateValidities(struct aircraft *a, int64_t now);
struct aircraft *trackFindAircraft(uint32_t addr);
/* Convert from a (hex) mode A value to a 0-4095 index */
static inline unsigned
modeAToIndex (unsigned modeA)
{
return (modeA & 0x0007) | ((modeA & 0x0070) >> 1) | ((modeA & 0x0700) >> 2) | ((modeA & 0x7000) >> 3);
}
/* Convert from a 0-4095 index to a (hex) mode A value */
static inline unsigned
indexToModeA (unsigned index)
{
return (index & 0007) | ((index & 0070) << 1) | ((index & 0700) << 2) | ((index & 07000) << 3);
}
/* convert from (hex) squawk to (dec) squawk */
static inline uint32_t squawkHex2Dec(uint32_t s) {
return ( (s & 0xf000) / 0x1000 * 1000 + (s & 0x0f00) / 0x100 * 100 + (s & 0x00f0) / 0x10 * 10 + (s & 0x000f) / 0x1 * 1);
}
/* convert from (dec) squawk to (hex) squawk */
static inline uint32_t squawkDec2Hex(uint32_t s) {
return ( (s / 1000 % 10) * 16*16*16 + (s / 100 % 10) * 16*16 + (s / 10 % 10) * 16 + (s % 10) );
}
static inline int bogus_lat_lon(double lat, double lon) {
if (fabs(lat) >= 90.0 || fabs(lon) >= 180.0)
return 1;
if (lat == 0 && (lon == -90 || lon == 90 || lon == 0))
return 1;
if (fabs(lat) < 0.01 && fabs(lon) < 0.01)
return 1;
return 0;
}
static inline int get8bitSignal(struct aircraft *a) {
double signal = (a->signalLevel[0] + a->signalLevel[1] + a->signalLevel[2] + a->signalLevel[3] +
a->signalLevel[4] + a->signalLevel[5] + a->signalLevel[6] + a->signalLevel[7]) / 8.0;
signal = sqrt(signal) * 255.0;
if (signal > 255) signal = 255;
if (signal < 1 && signal > 0) signal = 1;
return (int) nearbyint(signal);
}
static inline const char *nonIcaoSpace(struct aircraft *a) {
if (a->addr & MODES_NON_ICAO_ADDRESS) {
return "";
} else {
return " ";
}
}
#endif