recording_started: u32,
+ // The total distance logged of the currently running recording.
+ pub total_distance_cm: u32,
+
+ split_distance_cm: u32,
+ split_duration_ms: u32,
+ pub pace_s: u32,
+
// The number of slots filled in num_flight.
num_in_flight: usize,
recording_id: 0,
first_sector: 0,
recording_started: 0,
+ total_distance_cm: 0,
+ split_distance_cm: 0,
+ split_duration_ms: 0,
+ pace_s: 0,
num_in_flight: 0,
in_flight: [InFlight::new(); 7],
self.sectors_written = 0;
self.recording_started = tap.unix_time;
+ self.total_distance_cm = 0;
+ self.split_distance_cm = 0;
+ self.split_duration_ms = 0;
+ self.pace_s = 0;
self.num_in_flight = 0;
self.prepare_write_buffer(true);
if self.write_packet(d_time_s, d_lat, d_lon) {
self.flush_in_flight(false);
}
+
+ let distance_cm = tap.distance_cm(&prev_tap) as u32;
+
+ self.total_distance_cm += distance_cm;
+ self.split_distance_cm += distance_cm;
+
+ self.split_duration_ms += d_time_ms;
+
+ if self.split_distance_cm >= 100_000 {
+ self.split_distance_cm -= 100_000;
+
+ self.pace_s = self.split_duration_ms / 1000;
+ self.split_duration_ms = 0;
+ }
}
pub fn stop_recording(&mut self, tap: &TimeAndPos) -> u16 {