Start on {µ.toDate(target.data.boatClass.run.date,"FR:dddd dd mmmm ' at ' HH:MM 'FR'")}

Total distance{µ.toNumber(target.data.line.dtf," ¤1¤.")} nm

Arrived on {µ.toDate(target.boat.arrival.date,"FR:dd/mm/yyyy ' at ' HH:MM:ss 'FR'")}

Race time {µ.toRacetime(target.boat.arrival.racetime, "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Penalty {µ.toRacetime(Math.abs(target.boat.arrival.penalty), "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Bonus {µ.toRacetime(Math.abs(target.boat.arrival.penalty), "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Official time {µ.toRacetime(target.boat.arrival.jury, "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Gap to first {µ.toRacetime(target.boat.arrival.gapToFirst, "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Gap to previous {µ.toRacetime(target.boat.arrival.gapToPrevious, "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Over the orthodromy {µ.toNumber(target.boat.arrival.orthoDistance, " ¤1¤.")} nm / {µ.toNumber(target.boat.arrival.orthoSpeed, " ¤1¤.")} kts

Over ground {µ.toNumber(target.boat.arrival.overgroundDistance, " ¤1¤.")} nm / {µ.toNumber(target.boat.arrival.overgroundSpeed, " ¤1¤.")} kts

At {µ.toDate(target.boat.timecode*1000,"FR:''HH:MM' FR'")}

At report on {µ.toDate(target.data.line.report.timecode*1000,"FR:''HH:MM' FR'")}

At {µ.toDate(target.boat.timecode*1000,"FR:''HH:MM' FR'")}

At report on {µ.toDate(target.data.line.report.timecode*1000,"FR:''HH:MM' FR'")}

At {µ.toDate(target.boat.timecode*1000,"FR:''HH:MM' FR'")}

At report on {µ.toDate(target.data.line.report.timecode*1000,"FR:''HH:MM' FR'")}

At {µ.toDate(target.boat.timecode*1000,"FR:''HH:MM' FR'")}

At report on {µ.toDate(target.data.line.report.timecode*1000,"FR:''HH:MM' FR'")}

PIT

Stealth mode

Not localised

SUS

NYS

DNS

DNC

DNF

DSQ

CNS

Retired