def save(self, soaring_spot_info):
file_name = settings.current_dir + "/debug_logs/flightClassDebug.txt"
if self.file_name == soaring_spot_info.file_names[0]:
text_file = open(file_name, "w") # overwriting if exist
else:
text_file = open(file_name, "a") # appending
text_file.write("file_name: " + self.file_name + "\n")
text_file.write("airplane: " + self.airplane + "\n")
text_file.write("competition_id: " + self.competition_id + "\n\n")
print_array_debug(text_file, "tsk_t", self.tsk_t)
tsk_t_temp = [""] * len(self.tsk_t)
for ii in range(len(self.tsk_t)):
tsk_t_temp[ii] = ss2hhmmss(self.tsk_t[ii])
print_array_debug(text_file, "tsk_t", tsk_t_temp)
print_array_debug(text_file, "tsk_i", self.tsk_i)
text_file.write("gps_altitude: " + str(self.gps_altitude) + "\n")
text_file.write("outlanded: " + str(self.outlanded) + "\n")
if self.outlanded:
text_file.write("outlanding_leg: " + str(self.outlanding_leg) + "\n")
text_file.write("outlanding time(UTC): " + ss2hhmmss(det_local_time(self.outlanding_b_record, 0)) + "\n")
text_file.write("outlanding distance from previous tp: " + str(self.outlanding_distance) + "\n")
text_file.write("%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%\n")
text_file.close()
def save(self, soaring_spot_info):
file_name = settings.current_dir + "/debug_logs/flightClassDebug.txt"
if self.file_name == soaring_spot_info.file_names[0]:
text_file = open(file_name, "w") # overwriting if exist
else:
text_file = open(file_name, "a") # appending
text_file.write("file_name: " + self.file_name + "\n")
text_file.write("airplane: " + self.airplane + "\n")
text_file.write("competition_id: " + self.competition_id + "\n\n")
print_array_debug(text_file, "tsk_t", self.tsk_t)
tsk_t_temp = [""] * len(self.tsk_t)
for ii in range(len(self.tsk_t)):
tsk_t_temp[ii] = ss2hhmmss(self.tsk_t[ii])
print_array_debug(text_file, "tsk_t", tsk_t_temp)
print_array_debug(text_file, "tsk_i", self.tsk_i)
text_file.write("gps_altitude: " + str(self.gps_altitude) + "\n")
text_file.write("outlanded: " + str(self.outlanded) + "\n")
if self.outlanded:
text_file.write("outlanding_leg: " + str(self.outlanding_leg) +
"\n")
text_file.write(
"outlanding time(UTC): " +
ss2hhmmss(det_local_time(self.outlanding_b_record, 0)) + "\n")
text_file.write("outlanding distance from previous tp: " +
str(self.outlanding_distance) + "\n")
text_file.write(
"%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%\n")
text_file.close()
def save_phases(self, soaring_spot_info, flight):
file_name = settings.current_dir + "/debug_logs/phasesClassPhaseDebug.txt"
if flight.file_name == soaring_spot_info.file_names[0]:
text_file = open(file_name, "w") # overwriting if exist
else:
text_file = open(file_name, "a") # appending
text_file.write(flight.file_name + "\n\n")
text_file.write("phases.all:\n")
for entry in self.all:
text_file.write(entry['phase'] + '\t' + ss2hhmmss(entry['t_start']) + '\t'
+ ss2hhmmss(entry['t_end']) + '\t' + str(entry['i_start']) + '\t' + str(entry['i_end']) + "\n")
text_file.write("\n")
for leg in range(len(self.leg)):
text_file.write('leg' + str(leg) + "\n")
for entry in self.leg[leg]:
text_file.write(entry['phase'] + '\t' + ss2hhmmss(entry['t_start'])
+ '\t' + ss2hhmmss(entry['t_end']) + '\t' + str(entry['i_start']) + '\t' + str(entry['i_end']) + "\n")
text_file.write("\n")
text_file.write("%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%\n")
text_file.close()
def save(self):
file_name = settings.current_dir + "/debug_logs/competitionDayDebug.txt"
text_file = open(file_name, "w")
print_array_debug(text_file, "task", self.task)
print_array_debug(text_file, "task_dists", self.task_distances)
text_file.write("task_date: " + self.task_date + "\n\n")
text_file.write("no_tps: " + str(self.no_tps) + "\n")
text_file.write("no_legs: " + str(self.no_legs) + "\n\n")
text_file.write("aat: " + str(self.aat) + "\n")
text_file.write("task_found: " + str(self.task_found) + "\n")
text_file.write("start_opening: " + ss2hhmmss(self.start_opening) + "\n\n")
text_file.close()
def save(self):
file_name = settings.current_dir + "/debug_logs/competitionDayDebug.txt"
text_file = open(file_name, "w")
print_array_debug(text_file, "task", self.task)
print_array_debug(text_file, "task_dists", self.task_distances)
text_file.write("task_date: " + self.task_date + "\n\n")
text_file.write("no_tps: " + str(self.no_tps) + "\n")
text_file.write("no_legs: " + str(self.no_legs) + "\n\n")
text_file.write("aat: " + str(self.aat) + "\n")
text_file.write("task_found: " + str(self.task_found) + "\n")
text_file.write("start_opening: " + ss2hhmmss(self.start_opening) +
"\n\n")
text_file.close()
def determine_tsk_times(self, competition_day):
leg = -1 # leg before startline is crossed
possible_enl = 0 # excluding motor test
for i in range(len(self.b_records)):
if self.gps_altitude and det_height(self.b_records[i], False) != 0:
self.gps_altitude = False
t = det_local_time(self.b_records[i], competition_day.utc_to_local)
if leg == -1 and t > competition_day.start_opening and i > 0:
start = competition_day.task[0]
if start.taskpoint_completed(self.b_records[i - 1], self.b_records[i]):
self.tsk_t.append(t)
self.tsk_i.append(i)
self.first_start_i = i
leg = 0
possible_enl = 0
elif leg == 0:
if used_engine(self, i):
possible_enl = determine_engine_start_i(self, i)
start = competition_day.task[0]
tp1 = competition_day.task[1]
if start.taskpoint_completed(self.b_records[i - 1], self.b_records[i]):
if self.file_name == "PR.igc":
print "PR restart at t=%s" % ss2hhmmss(t)
self.tsk_t[0] = t
self.tsk_i[0] = i
possible_enl = 0
if tp1.taskpoint_completed(self.b_records[i - 1], self.b_records[i]):
self.tsk_t.append(t)
self.tsk_i.append(i)
leg += 1
elif 0 < leg < competition_day.no_tps:
if used_engine(self, i):
possible_enl = determine_engine_start_i(self, i)
break
next_tp = competition_day.task[leg+1]
if next_tp.taskpoint_completed(self.b_records[i - 1], self.b_records[i]):
self.tsk_t.append(t)
self.tsk_i.append(i)
leg += 1
elif leg == competition_day.no_legs - 1:
if used_engine(self, i):
possible_enl = determine_engine_start_i(self, i)
break
finish = competition_day.task[-1]
if finish.taskpoint_completed(self.b_records[i - 1], self.b_records[i]):
self.tsk_t.append(t)
self.tsk_i.append(i)
leg += 1
b_record1 = self.b_records[self.tsk_i[0]-1]
b_record2 = self.b_records[self.tsk_i[0]]
self.tsk_t[0] -= self.start_refinement(competition_day, b_record1, b_record2)
self.tsk_t[0] -= 1 # Soaring spot takes point before start line!
if not possible_enl == 0:
self.outlanding_b_record = self.b_records[possible_enl]
if not possible_enl == 0 or len(self.tsk_t) != competition_day.no_legs + 1:
self.outlanded = True
self.outlanding_leg = len(self.tsk_t)-1
self.determine_outlanding_location(competition_day)
def __init__(self, competition_day, flight):
self.tsk_distance_all = sum(competition_day.task_distances)
self.tsk_distance_leg = competition_day.task_distances
self.no_cruises = flight.phases.cruises_all
self.no_cruises_leg = flight.phases.cruises_leg
self.no_thermals = flight.phases.thermals_all
self.no_thermals_leg = flight.phases.thermals_leg
startheight = det_height(flight.b_records[flight.tsk_i[0]], flight.gps_altitude)
finish_height = det_height(flight.b_records[flight.tsk_i[-1]], flight.gps_altitude)
if flight.outlanded:
s_flown_task_all = 0
for leg in range(flight.outlanding_leg):
s_flown_task_all += competition_day.task_distances[leg]
s_flown_task_all += flight.outlanding_distance
s_flown_task_all /= 1000
else:
s_flown_task_all = sum(competition_day.task_distances) / 1000
self.all = {"ranking": flight.ranking,
"airplane": flight.airplane,
"compID": flight.competition_id,
"t_start": ss2hhmmss(flight.tsk_t[0]),
"t_finish": ss2hhmmss(flight.tsk_t[-1]),
"h_start": startheight,
"h_finish": finish_height,
"s_flown_task": s_flown_task_all}
self.leg = []
# in case of outlanding: only performance is stored from completed legs
for leg in range(competition_day.no_legs):
if flight.outlanded and leg == flight.outlanding_leg:
t_start = flight.tsk_t[leg]
t_finish = 0
s_flown_task_leg = flight.outlanding_distance / 1000
startheight = det_height(flight.b_records[flight.tsk_i[leg]], flight.gps_altitude)
finish_height = 0
elif flight.outlanded and leg > flight.outlanding_leg:
t_start = 0
t_finish = 0
s_flown_task_leg = 0
startheight = 0
finish_height = 0
else:
t_start = flight.tsk_t[leg]
t_finish = flight.tsk_t[leg+1]
s_flown_task_leg = competition_day.task_distances[leg] / 1000
startheight = det_height(flight.b_records[flight.tsk_i[leg]], flight.gps_altitude)
finish_height = det_height(flight.b_records[flight.tsk_i[leg+1]], flight.gps_altitude)
self.leg.append({"ranking": self.all["ranking"],
"airplane": self.all["airplane"],
"compID": self.all["compID"],
"t_start": ss2hhmmss(t_start),
"t_finish": ss2hhmmss(t_finish),
"h_start": startheight,
"h_finish": finish_height,
"s_flown_task": s_flown_task_leg})
def determine_tsk_times(self, competition_day):
leg = -1 # leg before startline is crossed
possible_enl = 0 # excluding motor test
for i in range(len(self.b_records)):
if self.gps_altitude and det_height(self.b_records[i], False) != 0:
self.gps_altitude = False
t = det_local_time(self.b_records[i], competition_day.utc_to_local)
if leg == -1 and t > competition_day.start_opening and i > 0:
start = competition_day.task[0]
if start.taskpoint_completed(self.b_records[i - 1],
self.b_records[i]):
self.tsk_t.append(t)
self.tsk_i.append(i)
self.first_start_i = i
leg = 0
possible_enl = 0
elif leg == 0:
if used_engine(self, i):
possible_enl = determine_engine_start_i(self, i)
start = competition_day.task[0]
tp1 = competition_day.task[1]
if start.taskpoint_completed(self.b_records[i - 1],
self.b_records[i]):
if self.file_name == "PR.igc":
print "PR restart at t=%s" % ss2hhmmss(t)
self.tsk_t[0] = t
self.tsk_i[0] = i
possible_enl = 0
if tp1.taskpoint_completed(self.b_records[i - 1],
self.b_records[i]):
self.tsk_t.append(t)
self.tsk_i.append(i)
leg += 1
elif 0 < leg < competition_day.no_tps:
if used_engine(self, i):
possible_enl = determine_engine_start_i(self, i)
break
next_tp = competition_day.task[leg + 1]
if next_tp.taskpoint_completed(self.b_records[i - 1],
self.b_records[i]):
self.tsk_t.append(t)
self.tsk_i.append(i)
leg += 1
elif leg == competition_day.no_legs - 1:
if used_engine(self, i):
possible_enl = determine_engine_start_i(self, i)
break
finish = competition_day.task[-1]
if finish.taskpoint_completed(self.b_records[i - 1],
self.b_records[i]):
self.tsk_t.append(t)
self.tsk_i.append(i)
leg += 1
b_record1 = self.b_records[self.tsk_i[0] - 1]
b_record2 = self.b_records[self.tsk_i[0]]
self.tsk_t[0] -= self.start_refinement(competition_day, b_record1,
b_record2)
self.tsk_t[0] -= 1 # Soaring spot takes point before start line!
if not possible_enl == 0:
self.outlanding_b_record = self.b_records[possible_enl]
if not possible_enl == 0 or len(
self.tsk_t) != competition_day.no_legs + 1:
self.outlanded = True
self.outlanding_leg = len(self.tsk_t) - 1
self.determine_outlanding_location(competition_day)
