def setUp(self): self.c = Club() self.c.name = "test club" self.c.full_clean() self.c.save() self.season = Season() self.season.club = self.c self.season.year = 2011 self.season.save() self.e = Event() self.e.name = "test event" self.e.date = datetime.date.today() self.e.season = self.season self.e.club = self.c self.e.save() self.sess = Session() self.sess.name = "AM" self.sess.event = self.e self.sess.club = self.c self.sess.save() self.classes = ["A", "B", "C", "D", "E", "F", "G", "H"] self.paxes = [1.0, .98, .96, .94, .92, .90, .88, .86] for klass, pax in zip(self.classes, self.paxes): self.race_class = RaceClass() self.race_class.name = klass self.race_class.pax = pax self.race_class.club = self.c self.race_class.save() for i in range(0, 10): self.r = Registration() self.r.number = i self.r.race_class = self.race_class self.r._anon_f_name = "%s%d"%(self.race_class.name, i) self.r.pax_class = None self.r.event = self.e self.r.club = self.c self.r.save() #make two regs with empty runs for each class if self.race_class.name!="H" and i < 8: #one race class with no results self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j #91.0 is lowest raw time (*0.88 for index) run.result = self.result run.club = self.c run.save()
def test_pax_class_one_result(self): self.race_class = RaceClass() self.race_class.name = "Pro" self.race_class.abrv ="X" self.race_class.pax = 1.0 self.race_class.pax_class=True self.race_class.club = self.c self.race_class.save() for i, pax_name in zip(range(0, 7), self.classes): rc = RaceClass.objects.filter(name=pax_name).get() self.r = Registration() self.r.number = 10*(1+i) self.r.race_class = rc self.r._anon_f_name = "%s_%d"%(self.race_class.name, i) self.r.pax_class = self.race_class self.r.event = self.e self.r.club = self.c self.r.save() #make regs with runs for each class if rc.name!="H": self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() race_classes = self.e.calc_results() self.assertEqual([u"A", u"B", u"C", u"D", u"E", u"F", u"G", u"Pro"], [rc.name for rc in race_classes]) #make sure the results come back sorted for rc, regs in race_classes.iteritems(): #all race_classes should have 8 regs in the results self.assertEqual(regs, sorted(regs, key=lambda x: x.total_index_time)) if rc.name != "Pro": self.assertEqual(class_point_ladder[:8], [reg.class_points for reg in regs]) self.assertEqual(8, len(regs)) else: self.assertEqual(class_point_ladder[:7], [reg.class_points for reg in regs]) self.assertEqual(7, len(regs)) regs = self.e.get_results() self.assertEqual(regs[0].total_index_time, (91.0)*.88) self.assertEqual(index_point_ladder[:63], [reg.index_points for reg in regs])
def setUp(self): self.c = Club() self.c.name = "test club" self.c.save() self.season = Season() self.season.club = self.c self.season.year = 2011 self.season.save() self.race_class = RaceClass() self.race_class.name = "CSP" self.race_class.pax = .875 self.race_class.club = self.c self.race_class.save() self.e = Event() self.e.name = "test event" self.e.date = datetime.date.today() self.e.season = self.season self.e.club = self.c self.e.save() self.sess = Session() self.sess.name = "AM" self.sess.event = self.e self.sess.club = self.c self.sess.save() self.r = Registration() self.r.number = 11 self.r.race_class = self.race_class self.r.pax_class = None self.r.event = self.e self.r.club = self.c self.r.save() self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save()
def test_no_index_classes_two_result(self): self.sess = Session() self.sess.name = "PM" self.sess.event = self.e self.sess.club = self.c self.sess.save() for klass, pax in zip(self.classes, self.paxes): self.race_class = RaceClass.objects.filter(name=klass).get() for i in range(0, 10): self.r = Registration.objects.filter(_anon_f_name="%s%d"%(self.race_class.name, i)).get() #make regs with empty runs for each class if self.race_class.name!="H" and i < 8: #one race class with no results self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() self.r = Registration.objects.filter(_anon_f_name="%s%d"%(self.race_class.name, i)).get() race_classes = self.e.calc_results() self.assertEqual(["A", "B", "C", "D", "E", "F", "G"], [rc.name for rc in race_classes]) #make sure the results come back sorted for rc, regs in race_classes.iteritems(): #all race_classes should have 8 regs in the results self.assertEqual(regs, sorted(regs, key=lambda x: x.total_index_time)) self.assertEqual(class_point_ladder[:8], [reg.class_points for reg in regs]) self.assertEqual(8, len(regs)) regs = self.e.get_results() self.assertEqual(regs[0].total_index_time, 2*(91.0)*.88) self.assertEqual(index_point_ladder[:56], [reg.index_points for reg in regs])
def setUp(self): self.c = Club() self.c.name = "test club" self.c.save() self.season = Season() self.season.club = self.c self.season.year = 2011 self.season.save() self.race_class = RaceClass() self.race_class.name = "CSP" self.race_class.pax = 0.875 self.race_class.club = self.c self.race_class.save() self.e = Event() self.e.name = "test event" self.e.date = datetime.date.today() self.e.season = self.season self.e.club = self.c self.e.save() self.sess = Session() self.sess.name = "AM" self.sess.event = self.e self.sess.club = self.c self.sess.save() self.r = Registration() self.r.number = 11 self.r.race_class = self.race_class self.r.pax_class = None self.r.event = self.e self.r.club = self.c self.r.save() self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save()
def test_no_dibs(self): reg = Registration() up = UserProfile.objects.get(user=self.u1) reg.user_profile = up reg.number = 15 reg.race_class = self.race_class reg.pax_class = None reg.event = self.e4 reg.club = self.c reg.save() s = Session() s.event = self.e4 s.name = "AM" s.club = self.c s.save() result = Result() result.reg = reg result.session = s result.club = self.c result.save() for k in range(0, 3): r = Run() r.base_time = 10.0 r.calc_time = 10.0 r.index_time = 10.0 r.result = result r.club = self.c r.save() self.c.assign_dibs() self.assertEqual(len(Dibs.objects.all()), 0) reg.delete() s.delete()
class TestResult(unittest.TestCase): def setUp(self): self.c = Club() self.c.name = "test club" self.c.save() self.season = Season() self.season.club = self.c self.season.year = 2011 self.season.save() self.race_class = RaceClass() self.race_class.name = "CSP" self.race_class.pax = 0.875 self.race_class.club = self.c self.race_class.save() self.e = Event() self.e.name = "test event" self.e.date = datetime.date.today() self.e.season = self.season self.e.club = self.c self.e.save() self.sess = Session() self.sess.name = "AM" self.sess.event = self.e self.sess.club = self.c self.sess.save() self.r = Registration() self.r.number = 11 self.r.race_class = self.race_class self.r.pax_class = None self.r.event = self.e self.r.club = self.c self.r.save() self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() def tearDown(self): Club.objects.all().delete() Season.objects.all().delete() RaceClass.objects.all().delete() Event.objects.all().delete() Session.objects.all().delete() Registration.objects.all().delete() Result.objects.all().delete() Run.objects.all().delete() def test_best_run1(self): r1 = Run() r1.base_time = 10.0 r1.result = self.result r1.club = self.c r1.save() r2 = Run() r2.base_time = 11.0 r2.result = self.result r2.club = self.c r2.save() r3 = Run() r3.base_time = 9.0 r3.cones = 1 r3.result = self.result r3.club = self.c r3.save() r4 = Run() r4.base_time = 10.0 r4.result = self.result r4.penalty = "DNF" r4.club = self.c r4.save() best_run = self.result.find_best_run() self.assertEqual(best_run, r1) def test_best_run2(self): r1 = Run() r1.base_time = 10.0 r1.result = self.result r1.club = self.c r1.save() best_run = self.result.find_best_run() self.assertEqual(best_run, r1) def test_best_run3(self): r1 = Run() r1.base_time = 10.0 r1.result = self.result r1.club = self.c r1.save() r2 = Run() r2.base_time = 9.0 r2.result = self.result r2.club = self.c r2.save() r3 = Run() r3.base_time = 10.5 r3.result = self.result r3.club = self.c r3.save() best_run = self.result.find_best_run() self.assertEqual(best_run, r2) def test_best_run_no_clean_runs(self): r1 = Run() r1.base_time = 10.0 r1.result = self.result r1.penalty = "DNF" r1.club = self.c r1.save() r2 = Run() r2.base_time = 0.1 r2.result = self.result r2.penalty = "O/C" r2.club = self.c r2.save() best_run = self.result.find_best_run() self.assertEqual(best_run, None)
def setUp(self): self.today = datetime.date.today() self.c = Club() self.c.name = "test" self.c.events_for_dibs = 2 self.c.save() self.race_class = RaceClass() self.race_class.name = "CSP" self.race_class.pax = .875 self.race_class.club = self.c self.race_class.save() self.s = Season() self.s.year = 2011 self.s.club = self.c self.s.save() self.e1 = Event() self.e1.name = "event1" self.e1.date = self.today-datetime.timedelta(days=10) self.e1.season = self.s self.e1.club = self.c self.e1.save() self.e2 = Event() self.e2.name = "event2" self.e2.date = self.today-datetime.timedelta(days=8) self.e2.season = self.s self.e2.club = self.c self.e2.save() self.e3 = Event() self.e3.name = "event3" self.e3.date = self.today-datetime.timedelta(days=5) self.e3.season = self.s self.e3.club = self.c self.e3.save() self.e4 = Event() self.e4.name = "event4" self.e4.date = self.today+datetime.timedelta(days=10) self.e4.season = self.s self.e4.club = self.c self.e4.save() self.events = [self.e1, self.e2, self.e3] for event in self.events: s = Session() s.event = event s.name = "AM" s.club = self.c s.save() self.u1 = User() self.u1.username = "******" self.u1.save() self.u2 = User() self.u2.username = "******" self.u2.save() self.u3 = User() self.u3.username = "******" self.u3.save() self.users = [self.u1, self.u2, self.u3] for i, user in enumerate(self.users): up = user.get_profile() for j, event in enumerate(self.events): if j<=i: r = Registration() r.number = "%d"%(i+1) r.race_class = self.race_class r.pax_class = None r.event = event r.user_profile = up r.club = self.c r.save() result = Result() result.reg = r result.session = event.sessions.all()[0] result.club = self.c result.save() for k in range(0, 3): r = Run() r.base_time = 10.0 r.calc_time = 10.0 r.index_time = 10.0 r.result = result r.club = self.c r.save()
def test_calc_times(self): self.r.save() sess = Session() sess.name = "AM" sess.event = self.e sess.club = self.c sess.save() res = Result() res.reg = self.r res.session = sess res.club = self.c res.save() r = Run() r.base_time = 10.0 r.result = res r.club = self.c r.save() res = Result() res.reg = self.r res.session = sess res.club = self.c res.save() r = Run() r.base_time = 10.0 r.result = res r.club = self.c r.save() self.r.save() self.r.calc_times() self.assertEqual(self.r.total_raw_time, 20.0) self.assertEqual(self.r.total_index_time, self.r.total_raw_time * self.race_class.pax)
class TestResult(unittest.TestCase): def setUp(self): self.c = Club() self.c.name = "test club" self.c.save() self.season = Season() self.season.club = self.c self.season.year = 2011 self.season.save() self.race_class = RaceClass() self.race_class.name = "CSP" self.race_class.pax = .875 self.race_class.club = self.c self.race_class.save() self.e = Event() self.e.name = "test event" self.e.date = datetime.date.today() self.e.season = self.season self.e.club = self.c self.e.save() self.sess = Session() self.sess.name = "AM" self.sess.event = self.e self.sess.club = self.c self.sess.save() self.r = Registration() self.r.number = 11 self.r.race_class = self.race_class self.r.pax_class = None self.r.event = self.e self.r.club = self.c self.r.save() self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() def tearDown(self): Club.objects.all().delete() Season.objects.all().delete() RaceClass.objects.all().delete() Event.objects.all().delete() Session.objects.all().delete() Registration.objects.all().delete() Result.objects.all().delete() Run.objects.all().delete() def test_best_run1(self): r1 = Run() r1.base_time = 10.0 r1.result = self.result r1.club = self.c r1.save() r2 = Run() r2.base_time = 11.0 r2.result = self.result r2.club = self.c r2.save() r3 = Run() r3.base_time = 9.0 r3.cones = 1 r3.result = self.result r3.club = self.c r3.save() r4 = Run() r4.base_time = 10.0 r4.result = self.result r4.penalty = "DNF" r4.club = self.c r4.save() best_run = self.result.find_best_run() self.assertEqual(best_run, r1) def test_best_run2(self): r1 = Run() r1.base_time = 10.0 r1.result = self.result r1.club = self.c r1.save() best_run = self.result.find_best_run() self.assertEqual(best_run, r1) def test_best_run3(self): r1 = Run() r1.base_time = 10.0 r1.result = self.result r1.club = self.c r1.save() r2 = Run() r2.base_time = 9.0 r2.result = self.result r2.club = self.c r2.save() r3 = Run() r3.base_time = 10.5 r3.result = self.result r3.club = self.c r3.save() best_run = self.result.find_best_run() self.assertEqual(best_run, r2) def test_best_run_no_clean_runs(self): r1 = Run() r1.base_time = 10.0 r1.result = self.result r1.penalty = "DNF" r1.club = self.c r1.save() r2 = Run() r2.base_time = 0.1 r2.result = self.result r2.penalty = "O/C" r2.club = self.c r2.save() best_run = self.result.find_best_run() self.assertEqual(best_run, None)
def test_two_bump_class_one_result(self): self.race_class1 = RaceClass() self.race_class1.name = "index1" self.race_class1.pax = 1.0 self.race_class1.club = self.c self.race_class1.save() self.race_class2 = RaceClass() self.race_class2.name = "index2" self.race_class2.pax = 1.0 self.race_class2.club = self.c self.race_class2.save() for i, pax_name in zip(range(0, 7), self.classes): pax_class = RaceClass.objects.filter(name=pax_name).get() self.r = Registration() self.r.number = 10*(1+i) self.r.race_class = pax_class self.r._anon_f_name = "%s_%d"%(self.race_class2.name, i) self.r.bump_class = self.race_class1 self.r.event = self.e self.r.club = self.c self.r.save() #make regs with empty runs for each class if pax_class.name!="H": self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() self.r = Registration() self.r.number = 60*(1+i) self.r.race_class = pax_class self.r._anon_f_name = "%s_%d"%(self.race_class2.name, i) self.r.bump_class = self.race_class2 self.r.event = self.e self.r.club = self.c self.r.save() #make regs with empty runs for each class if pax_class.name!="H": self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() race_classes = self.e.calc_results() self.assertEqual(set(["A", "B", "C", "D", "E", "F", "G", "index1", "index2"]), set([rc.name for rc in race_classes])) #make sure the results come back sorted for rc, regs in race_classes.iteritems(): #all race_classes should have 8 regs in the results self.assertEqual(regs, sorted(regs, key=lambda x: x.total_index_time)) if "index" not in rc.name: self.assertEqual(class_point_ladder[:8], [reg.class_points for reg in regs]) self.assertEqual(8, len(regs)) else: self.assertEqual(class_point_ladder[:7], [reg.class_points for reg in regs]) self.assertEqual(7, len(regs)) regs = self.e.get_results() self.assertEqual(regs[0].total_index_time, (91.0)*.88) self.assertEqual(index_point_ladder[:70], [reg.index_points for reg in regs])
class TestEventPointsCalc(unittest.TestCase): def setUp(self): self.c = Club() self.c.name = "test club" self.c.full_clean() self.c.save() self.season = Season() self.season.club = self.c self.season.year = 2011 self.season.save() self.e = Event() self.e.name = "test event" self.e.date = datetime.date.today() self.e.season = self.season self.e.club = self.c self.e.save() self.sess = Session() self.sess.name = "AM" self.sess.event = self.e self.sess.club = self.c self.sess.save() self.classes = ["A", "B", "C", "D", "E", "F", "G", "H"] self.paxes = [1.0, .98, .96, .94, .92, .90, .88, .86] for klass, pax in zip(self.classes, self.paxes): self.race_class = RaceClass() self.race_class.name = klass self.race_class.pax = pax self.race_class.club = self.c self.race_class.save() for i in range(0, 10): self.r = Registration() self.r.number = i self.r.race_class = self.race_class self.r._anon_f_name = "%s%d"%(self.race_class.name, i) self.r.pax_class = None self.r.event = self.e self.r.club = self.c self.r.save() #make two regs with empty runs for each class if self.race_class.name!="H" and i < 8: #one race class with no results self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j #91.0 is lowest raw time (*0.88 for index) run.result = self.result run.club = self.c run.save() def tearDown(self): clear_db() def test_no_index_classes_one_result(self): race_classes = self.e.calc_results() self.assertEqual(["A", "B", "C", "D", "E", "F", "G"], [rc.name for rc in race_classes]) #make sure the results come back sorted for rc, regs in race_classes.iteritems(): #all race_classes should have 8 regs in the results self.assertEqual(regs, sorted(regs, key=lambda x: x.total_index_time)) self.assertEqual(class_point_ladder[:8], [reg.class_points for reg in regs]) self.assertEqual(8, len(regs)) regs = self.e.get_results() self.assertEqual(regs[0].total_index_time, (91.0)*.88) self.assertEqual(index_point_ladder[:56], [reg.index_points for reg in regs]) def test_no_index_classes_two_result(self): self.sess = Session() self.sess.name = "PM" self.sess.event = self.e self.sess.club = self.c self.sess.save() for klass, pax in zip(self.classes, self.paxes): self.race_class = RaceClass.objects.filter(name=klass).get() for i in range(0, 10): self.r = Registration.objects.filter(_anon_f_name="%s%d"%(self.race_class.name, i)).get() #make regs with empty runs for each class if self.race_class.name!="H" and i < 8: #one race class with no results self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() self.r = Registration.objects.filter(_anon_f_name="%s%d"%(self.race_class.name, i)).get() race_classes = self.e.calc_results() self.assertEqual(["A", "B", "C", "D", "E", "F", "G"], [rc.name for rc in race_classes]) #make sure the results come back sorted for rc, regs in race_classes.iteritems(): #all race_classes should have 8 regs in the results self.assertEqual(regs, sorted(regs, key=lambda x: x.total_index_time)) self.assertEqual(class_point_ladder[:8], [reg.class_points for reg in regs]) self.assertEqual(8, len(regs)) regs = self.e.get_results() self.assertEqual(regs[0].total_index_time, 2*(91.0)*.88) self.assertEqual(index_point_ladder[:56], [reg.index_points for reg in regs]) def test_pax_class_one_result(self): self.race_class = RaceClass() self.race_class.name = "Pro" self.race_class.abrv ="X" self.race_class.pax = 1.0 self.race_class.pax_class=True self.race_class.club = self.c self.race_class.save() for i, pax_name in zip(range(0, 7), self.classes): rc = RaceClass.objects.filter(name=pax_name).get() self.r = Registration() self.r.number = 10*(1+i) self.r.race_class = rc self.r._anon_f_name = "%s_%d"%(self.race_class.name, i) self.r.pax_class = self.race_class self.r.event = self.e self.r.club = self.c self.r.save() #make regs with runs for each class if rc.name!="H": self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() race_classes = self.e.calc_results() self.assertEqual([u"A", u"B", u"C", u"D", u"E", u"F", u"G", u"Pro"], [rc.name for rc in race_classes]) #make sure the results come back sorted for rc, regs in race_classes.iteritems(): #all race_classes should have 8 regs in the results self.assertEqual(regs, sorted(regs, key=lambda x: x.total_index_time)) if rc.name != "Pro": self.assertEqual(class_point_ladder[:8], [reg.class_points for reg in regs]) self.assertEqual(8, len(regs)) else: self.assertEqual(class_point_ladder[:7], [reg.class_points for reg in regs]) self.assertEqual(7, len(regs)) regs = self.e.get_results() self.assertEqual(regs[0].total_index_time, (91.0)*.88) self.assertEqual(index_point_ladder[:63], [reg.index_points for reg in regs]) def test_one_bump_class_one_result(self): self.race_class = RaceClass() self.race_class.name = "index" self.race_class.pax = 1.0 self.race_class.club = self.c self.race_class.save() for i, pax_name in zip(range(0, 7), self.classes): rc = RaceClass.objects.filter(name=pax_name).get() self.r = Registration() self.r.number = 10*(1+i) self.r.race_class = rc self.r._anon_f_name = "%s_%d"%(self.race_class.name, i) self.r.bump_class = self.race_class self.r.event = self.e self.r.club = self.c self.r.save() #make regs with empty runs for each class if rc.name!="H": self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() race_classes = self.e.calc_results() self.assertEqual(["A", "B", "C", "D", "E", "F", "G", "index"], [rc.name for rc in race_classes]) #make sure the results come back sorted for rc, regs in race_classes.iteritems(): #all race_classes should have 8 regs in the results self.assertEqual(regs, sorted(regs, key=lambda x: x.total_index_time)) if rc.name != "index": self.assertEqual(class_point_ladder[:8], [reg.class_points for reg in regs]) self.assertEqual(8, len(regs)) else: self.assertEqual(class_point_ladder[:7], [reg.class_points for reg in regs]) self.assertEqual(7, len(regs)) regs = self.e.get_results() self.assertEqual(regs[0].total_index_time, (91.0)*.88) self.assertEqual(index_point_ladder[:63], [reg.index_points for reg in regs]) def test_two_bump_class_one_result(self): self.race_class1 = RaceClass() self.race_class1.name = "index1" self.race_class1.pax = 1.0 self.race_class1.club = self.c self.race_class1.save() self.race_class2 = RaceClass() self.race_class2.name = "index2" self.race_class2.pax = 1.0 self.race_class2.club = self.c self.race_class2.save() for i, pax_name in zip(range(0, 7), self.classes): pax_class = RaceClass.objects.filter(name=pax_name).get() self.r = Registration() self.r.number = 10*(1+i) self.r.race_class = pax_class self.r._anon_f_name = "%s_%d"%(self.race_class2.name, i) self.r.bump_class = self.race_class1 self.r.event = self.e self.r.club = self.c self.r.save() #make regs with empty runs for each class if pax_class.name!="H": self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() self.r = Registration() self.r.number = 60*(1+i) self.r.race_class = pax_class self.r._anon_f_name = "%s_%d"%(self.race_class2.name, i) self.r.bump_class = self.race_class2 self.r.event = self.e self.r.club = self.c self.r.save() #make regs with empty runs for each class if pax_class.name!="H": self.result = Result() self.result.reg = self.r self.result.session = self.sess self.result.club = self.c self.result.save() for j in range(0, 3): run = Run() run.base_time = 100.0-i-j run.result = self.result run.club = self.c run.save() race_classes = self.e.calc_results() self.assertEqual(set(["A", "B", "C", "D", "E", "F", "G", "index1", "index2"]), set([rc.name for rc in race_classes])) #make sure the results come back sorted for rc, regs in race_classes.iteritems(): #all race_classes should have 8 regs in the results self.assertEqual(regs, sorted(regs, key=lambda x: x.total_index_time)) if "index" not in rc.name: self.assertEqual(class_point_ladder[:8], [reg.class_points for reg in regs]) self.assertEqual(8, len(regs)) else: self.assertEqual(class_point_ladder[:7], [reg.class_points for reg in regs]) self.assertEqual(7, len(regs)) regs = self.e.get_results() self.assertEqual(regs[0].total_index_time, (91.0)*.88) self.assertEqual(index_point_ladder[:70], [reg.index_points for reg in regs])
def parse_axtime(event, session, results_file): """Expects a Session object and a file object with and iterates through to return either a list of result instances, or a dictionary containing error messages""" validate_error = {} results = [] club = session.club reader = csv.reader(results_file) header = reader.next() header_check = ["First", "Last", "Reg", "Class", "Num", "Vehicle", "Pax_Cls", "Color", "Notes", "Heat"] if not all([h in header for h in header_check]): validate_error["results_file"] = "your file was missing some columns" return validate_error time_keys = [k for k in header if "Run" in k] cone_keys = [k for k in header if "Pyl" in k] pen_keys = [k for k in header if "Pen" in k] if not all([time_keys, cone_keys, pen_keys]): validate_error["result_file"] = "your file was missing some run results columns" return validate_error keys = header_check + time_keys + cone_keys + pen_keys for line in reader: result = Result() result.session = session result.club = session.club data = dict(zip(header, line)) reg_id = data["Notes"] # find the group class and raceclass: if data["Class"] == data["Pax_Cls"]: group = None else: try: group = RaceClass.objects.get(abrv=data["Class"], club=club) except RaceClass.DoesNotExist: validate_error["result_file"] = ( "Your Reults for %s %s included a unknown entry, %s in the Class column" % (data["First"], data["Last"], data["Class"]) ) return validate_error try: race_class = RaceClass.objects.get(abrv=data["Pax_Cls"], club=club) except RaceClass.DoesNotExist: if not data["Pax_Cls"]: validate_error["results_file"] = "Your results for %s %s included an blank race class" % ( data["First"], data["Last"], ) else: validate_error["results_file"] = "Your results for %s %s included an unknown race class: %s" % ( data["First"], data["Last"], data["Pax_Cls"], ) return validate_error car_data = data["Vehicle"].split() if len(car_data) == 3 and int_check.match(car_data[0]): data["Vehicle_year"] = car_data[0] data["Vehicle_make"] = car_data[1] data["Vehicle_model"] = car_data[2] elif len(car_data) == 2: data["Vehicle_year"] = None data["Vehicle_make"] = car_data[0] data["Vehicle_model"] = car_data[1] else: data["Vehicle_year"] = None data["Vehicle_make"] = None data["Vehicle_model"] = data["Vehicle"] # try REALLY hard to find the registration that maps to this driver try: user = User.objects.filter( username__icontains=data["Mem_Num"], first_name__icontains=data["First"], last_name__icontains=data["Last"], )[0] except IndexError: # coudn't find one user = None if user: try: reg = Registration.objects.get(event=event, user_profile__user__username=user.username) if reg.race_class != race_class: reg.race_class = race_class except Registration.DoesNotExist: reg = Registration() reg.user_profile = user.get_profile() reg.number = int(data["Num"]) reg.race_class = race_class reg.pax_class = group reg._anon_car = data["Vehicle"] reg.event = event reg.club = club # not sure how this could happen at all... # except Registration.MultipleObjectsReturned: # reg = session.query(model.Registration).join(model.Driver).join(model.Event).\ # filter(model.Event.id==c.event.id).filter(model.Driver.user_name==driver.user_name).all() # for r in reg: # session.delete(r) # # reg = model.Registration() # reg.driver = driver # reg.number = int(data['Num']) # reg.race_class = race_class # reg.anon_car = unicode(data['Vehicle']) # reg.event = c.event else: # try to find a previous anon_reg try: reg = Registration.objects.get(event=event, _anon_f_name=data["First"], _anon_l_name=data["Last"]) except Registration.DoesNotExist: reg = Registration() reg.number = int(data["Num"]) reg.race_class = race_class reg.pax_class = group reg._anon_f_name = data["First"] reg._anon_l_name = data["Last"] reg._anon_car = data["Vehicle"] reg.event = event reg.club = club try: reg.save() except: validate_error["results_file"] = "%s %s has a duplicate class/number: %d %s" % ( reg.first_name, reg.last_name, reg.number, reg.race_class, ) return validate_error try: reg.number = int(data["Num"]) except Exception: validate_error["results_file"] = "Problem with car number for entry: %s %s" % ( reg.first_name, reg.last_name, ) return validate_error result.reg = reg result.save() for r_key, c_key, p_key in zip(time_keys, cone_keys, pen_keys): run = Run() run.result = result run.club = club try: if float(data[r_key]) <= 0.0: continue except ValueError: continue run.base_time = float(data[r_key]) run.cones = int(data[c_key]) if data[p_key].strip(): run.penalty = data[p_key] run.save() # note: not sure why this has to be done here try: reg.save() except Exception: validate_error["results_file"] = "%s %s has a duplicate class/number: %d %s" % ( reg.first_name, reg.last_name, reg.number, reg.race_class, ) return validate_error results.append(result) return results
def parse_axtime(event, session, results_file): """Expects a Session object and a file object with and iterates through to return either a list of result instances, or a dictionary containing error messages""" validate_error = {} results = [] club = session.club reader = csv.reader(results_file) header = reader.next() header_check = [ 'First', 'Last', 'Reg', 'Class', 'Num', 'Vehicle', 'Pax_Cls', 'Color', "Notes", "Heat" ] if not all([h in header for h in header_check]): validate_error['results_file'] = "your file was missing some columns" return validate_error time_keys = [k for k in header if 'Run' in k] cone_keys = [k for k in header if 'Pyl' in k] pen_keys = [k for k in header if 'Pen' in k] if not all([time_keys, cone_keys, pen_keys]): validate_error[ 'result_file'] = "your file was missing some run results columns" return validate_error keys = header_check + time_keys + cone_keys + pen_keys for line in reader: result = Result() result.session = session result.club = session.club data = dict(zip(header, line)) reg_id = data['Notes'] #find the group class and raceclass: if data['Class'] == data['Pax_Cls']: group = None else: try: group = RaceClass.objects.get(abrv=data['Class'], club=club) except RaceClass.DoesNotExist: validate_error[ 'result_file'] = 'Your Reults for %s %s included a unknown entry, %s in the Class column' % ( data['First'], data['Last'], data['Class']) return validate_error try: race_class = RaceClass.objects.get(abrv=data['Pax_Cls'], club=club) except RaceClass.DoesNotExist: if not data['Pax_Cls']: validate_error[ 'results_file'] = "Your results for %s %s included an blank race class" % ( data['First'], data['Last']) else: validate_error[ 'results_file'] = "Your results for %s %s included an unknown race class: %s" % ( data['First'], data['Last'], data['Pax_Cls']) return validate_error car_data = data['Vehicle'].split() if len(car_data) == 3 and int_check.match(car_data[0]): data['Vehicle_year'] = car_data[0] data['Vehicle_make'] = car_data[1] data['Vehicle_model'] = car_data[2] elif len(car_data) == 2: data['Vehicle_year'] = None data['Vehicle_make'] = car_data[0] data['Vehicle_model'] = car_data[1] else: data['Vehicle_year'] = None data['Vehicle_make'] = None data['Vehicle_model'] = data['Vehicle'] #try REALLY hard to find the registration that maps to this driver try: user = User.objects.filter(username__icontains=data['Mem_Num'], first_name__icontains=data['First'], last_name__icontains=data['Last'])[0] except IndexError: #coudn't find one user = None if user: try: reg = Registration.objects.get( event=event, user_profile__user__username=user.username) if reg.race_class != race_class: reg.race_class = race_class except Registration.DoesNotExist: reg = Registration() reg.user_profile = user.get_profile() reg.number = int(data['Num']) reg.race_class = race_class reg.pax_class = group reg._anon_car = data['Vehicle'] reg.event = event reg.club = club #not sure how this could happen at all... #except Registration.MultipleObjectsReturned: # reg = session.query(model.Registration).join(model.Driver).join(model.Event).\ # filter(model.Event.id==c.event.id).filter(model.Driver.user_name==driver.user_name).all() # for r in reg: # session.delete(r) # # reg = model.Registration() # reg.driver = driver # reg.number = int(data['Num']) # reg.race_class = race_class # reg.anon_car = unicode(data['Vehicle']) # reg.event = c.event else: #try to find a previous anon_reg try: reg = Registration.objects.get(event=event, _anon_f_name=data['First'], _anon_l_name=data['Last']) except Registration.DoesNotExist: reg = Registration() reg.number = int(data['Num']) reg.race_class = race_class reg.pax_class = group reg._anon_f_name = data['First'] reg._anon_l_name = data['Last'] reg._anon_car = data['Vehicle'] reg.event = event reg.club = club try: reg.save() except: validate_error[ 'results_file'] = "%s %s has a duplicate class/number: %d %s" % ( reg.first_name, reg.last_name, reg.number, reg.race_class) return validate_error try: reg.number = int(data['Num']) except Exception: validate_error[ 'results_file'] = 'Problem with car number for entry: %s %s' % ( reg.first_name, reg.last_name) return validate_error result.reg = reg result.save() for r_key, c_key, p_key in zip(time_keys, cone_keys, pen_keys): run = Run() run.result = result run.club = club try: if float(data[r_key]) <= 0.0: continue except ValueError: continue run.base_time = float(data[r_key]) run.cones = int(data[c_key]) if data[p_key].strip(): run.penalty = data[p_key] run.save() #note: not sure why this has to be done here try: reg.save() except Exception: validate_error[ 'results_file'] = "%s %s has a duplicate class/number: %d %s" % ( reg.first_name, reg.last_name, reg.number, reg.race_class) return validate_error results.append(result) return results
def handle(self, *args, **options): clear_db() s = Site.objects.all()[0] s.domain = "dev.racerslane.com" s.name = "Racerslane.com" s.save() print "Loading users" reader = csv.DictReader(open('old_data/driver.csv', 'rU')) for line in reader: """user_name","email","verified","activation_code", "f_name","l_name","address","city","state", "zip_code","_password""" for k, v in line.iteritems(): if v == "NULL": line[k] = None u = User() u.username = line['user_name'] u.email = line['email'] u.password = "******" % line['_password'] u.first_name = line['f_name'] u.last_name = line['l_name'] u.is_active = True u.save() up = u.get_profile() up.address = line['address'] up.city = line['city'] up.state = line['state'] up.zip_code = line['zip_code'] up.save() db.reset_queries() #dev to make it so I can login to any account justin = User.objects.get(username="******") password = justin.password #User.objects.all().update(password=password) print "Loading Cars" car_map = {} reader = csv.DictReader(open('old_data/car.csv', 'rb')) for line in reader: """id","nickname","make","model","color","avatar_file_loc", "avatar_thumb_loc","year","owner_user_name""" for k, v in line.iteritems(): if v == "NULL": line[k] = None if line['owner_user_name']: try: c = Car() c.provisional = False c.name = line['nickname'] c.make = line['make'] c.model = line['model'] if line['color']: c.color = line['color'] c.year = line['year'] c.user_profile = User.objects.get( username=line['owner_user_name']).get_profile() s_car_id = (line['owner_user_name'], line['nickname']) if exists('old_data/avatars/%s_%s_avatar' % s_car_id): c.avatar.save( '%s_%s_avatar' % s_car_id, File( open('old_data/avatars/%s_%s_avatar' % s_car_id))) c.thumb.save( '%s_%s_thumb' % s_car_id, File( open('old_data/avatars/%s_%s_thumb' % s_car_id))) c.save() db.reset_queries() car_map[line['id']] = c.pk except: continue print "Loading Clubs" #read in clubs club_map = {} for line in csv.DictReader(open('old_data/club.csv', 'rU')): """"name","web_link","process_payments","points_calc_type", "membership_cost","renewal_cost","membership_terms","paypal_email", "index_point_method","address","city","state","zip_code",""" for k, v in line.iteritems(): if v == "NULL": line[k] = None c = Club() c.city = line['city'] c.address = line['address'] c.zip_code = line['zip_code'] c.state = line['state'] c.name = line['name'] c.process_payments = line['process_payments'] c.paypal_email = line['paypal_email'] c.membership_terms = line['membership_terms'] c.new_member_cost = line['membership_cost'] c.renew_cost = line['renewal_cost'] c.save() club_map[line['name']] = c db.reset_queries() print "loading coupons" for line in csv.DictReader(open('old_data/coupon.csv')): """coupon_code","club_name","discount_amount","uses_left","expires", "permanent","driver_user_name","registration_id""" for k, v in line.iteritems(): if v == "NULL": line[k] = None c = Coupon() c.code = line['coupon_code'] c.permanent = bool(line['permanent']) c.club = club_map[line['club_name']] c.uses_left = line['uses_left'] c.discount_amount = line['discount_amount'] if line['expires']: c.expires = datetime.datetime.strptime(line['expires'], '%Y-%m-%d %H:%M:%S') if line['driver_user_name']: c.user_prof = User.objects.get( username=line['driver_user_name']).get_profile() c.save() db.reset_queries() print "loading memberships" reader = csv.DictReader(open('old_data/membership.csv', 'rb')) for line in reader: """"id","club_name","number","start_date","valid_thru_date", "price","paid","token","payer_id","transaction_id","anon_f_name", "anon_l_name","driver_user_name""" for k, v in line.iteritems(): if v == "NULL": line[k] = None m = Membership() m.num = line['number'] m.start = datetime.datetime.strptime(line['start_date'], '%Y-%m-%d %H:%M:%S') m.valid_thru = datetime.datetime.strptime(line['valid_thru_date'], '%Y-%m-%d %H:%M:%S') m.paid = bool(line['paid']) if line['price'] != None: m.price = float(line['price']) try: m.user_prof = User.objects.get( username=line['driver_user_name']).get_profile() except User.DoesNotExist: continue m.club = club_map[line['club_name']] m._anon_f_name = line['anon_f_name'] m._anon_l_name = line['anon_l_name'] m.save() db.reset_queries() print "loading locations" location_map = {} for line in csv.DictReader(open("old_data/location.csv")): """id","name","address","lat","lng","club_name""" for k, v in line.iteritems(): if v == "NULL": line[k] = None club = Club.objects.get(name=line['club_name']) l = Location() l.name = line['name'] l.address = line['address'] #l.lat = line['lat'] #l.lon = line['lng'] l.club = club l.save() location_map[line['id']] = l db.reset_queries() print "loading seasons" season_map = {} for line in csv.DictReader(open('old_data/season.csv')): s = Season() """"id","year","active","club_name","drop_lowest_events""" for k, v in line.iteritems(): if v == "NULL": line[k] = None club = Club.objects.get(name=line['club_name']) s.club = club s.year = int(line['year']) s.drop_lowest_events = int(line['drop_lowest_events']) s.save() season_map[line['id']] = s db.reset_queries() print "loading events" event_map = {} for line in csv.DictReader(open('old_data/event.csv', 'rU')): """id","name","note","date","registration_close","member_cost", "non_member_cost","pay_at_event_cost","location_id","club_name", "season_id","multiplier","count_points""" for k, v in line.iteritems(): if v == "NULL": line[k] = None e = Event() e.name = line['name'] e.note = line['note'] e.date = datetime.datetime.strptime(line['date'], '%Y-%m-%d %H:%M:%S') e.reg_close = line['registration_close'] + "-05:00" e.member_price = float(line['member_cost']) e.non_member_price = float(line['non_member_cost']) e.non_pre_pay_penalty = float(line['pay_at_event_cost']) e.season = season_map[line['season_id']] e.club = e.season.club e.count_points = int(line['count_points']) e.multiplier = int(line['multiplier']) if line['location_id']: e.location = location_map[line['location_id']] e.save() event_map[line['id']] = e db.reset_queries() print "loading race_classes" race_class_map = {} for line in csv.DictReader(open('old_data/raceclass.csv')): """id","pax","name","club_name""" for k, v in line.iteritems(): if v == "NULL": line[k] = None club = Club.objects.get(name=line['club_name']) r = RaceClass() r.name = line['name'] r.abrv = line['name'] r.pax = float(line['pax']) r.club = club r.save() db.reset_queries() race_class_map[line['id']] = r index_class = RaceClass() index_class.name = 'Index' index_class.bump_class = True index_class.abrv = "i" index_class.pax = 1.0 index_class.club = club index_class.save() print "loading reg_types" reg_type_map = {} for line in csv.DictReader(open('old_data/regtype.csv')): """id","name","class_letters","reg_limit","index", "description","club_name""" for k, v in line.iteritems(): if v == "NULL": line[k] = None club = Club.objects.get(name=line['club_name']) r = RaceClass() r.pax_class = True r.description = line['description'] r.name = line['name'] r.abrv = line['class_letters'] if line['reg_limit']: r.user_reg_limit = line['reg_limit'] r.pax = 1.0 r.club = club r.save() reg_type_map[line['id']] = r db.reset_queries() print "loading registrations" registration_map = {} for line in csv.DictReader(open('old_data/registration.csv')): """id","number","paid","token","payer_id","transaction_id", "price","class_points","index_points","index_flag","anon_f_name", "anon_l_name","anon_car","driver_user_name","event_id","reg_type_id", "car_id","race_class_id""" for k, v in line.iteritems(): if v == "NULL": line[k] = None if not line['event_id']: continue rc = race_class_map[line['race_class_id']] r = Registration() r.paid = bool(line['paid']) if line['price'] != None: r.price = float(line['price']) if line['driver_user_name']: user = User.objects.get(username=line['driver_user_name']) r.user_profile = user.get_profile() r.number = int(line['number']) r.paid = int(line['paid']) r.index_points = line['index_points'] r.class_points = line['class_points'] if line['price']: r.price = float(line['price']) else: r.price = 0.00 r.index_points = int(line['index_points']) r.class_points = int(line['class_points']) if line['anon_car']: r._anon_car = line['anon_car'].strip() if line['anon_l_name']: r._anon_l_name = line['anon_l_name'].strip() if line['anon_f_name']: r._anon_f_name = line['anon_f_name'].strip() r.race_class = rc r.event = event_map[line['event_id']] r.club = r.event.club try: if line['reg_type_id']: r.pax_class = reg_type_map[line['reg_type_id']] except: pass if line['index_flag']: r.bump_class = index_class try: if line['car_id']: r.car = Car.objects.get(pk=car_map[line['car_id']]) except: pass #TODO race_class_id #TODO remove reg_detail class, and associate reg with UserProfile directly #TODO registrations can be siblings for joint update try: r.save() except: r.number += 100 try: r.save() except: continue registration_map[line['id']] = r.pk db.reset_queries() print "loading sessions" session_map = {} for line in csv.DictReader(open('old_data/session.csv')): """id", "name", "event_id", "course_id""" for k, v in line.iteritems(): if v == "NULL": line[k] = None try: event_map[line['event_id']] except: continue s = Session() s.name = line['name'] s.event = event_map[line['event_id']] s.club = s.event.club s.save() session_map[line['id']] = s db.reset_queries() print "loading results" result_map = {} for line in csv.DictReader(open('old_data/result.csv')): """id","registration_id","event_id","sess_id""" for k, v in line.iteritems(): if v == "NULL": line[k] = None try: registration_map[line['registration_id']] session_map[line['sess_id']] except: continue r = Result() reg = Registration.objects.get( pk=registration_map[line['registration_id']]) r.reg = reg r.session = session_map[line['sess_id']] r.club = r.session.club try: r.save() except Exception as err: print registration_map[line['registration_id']].pk print str(err) print registration_map[line['registration_id']] result_map[line['id']] = r.id db.reset_queries() print "loading runs" for line in csv.DictReader(open('old_data/run.csv')): """id","base_time","calc_time","index_time","cones", "penalty","result_id","result_2_id""" for k, v in line.iteritems(): if v == "NULL": line[k] = None if line['base_time'] == None: continue try: r = Run() r.base_time = float(line['base_time']) r.cones = int(line['cones']) if line['penalty']: r.penalty = line['penalty'] result = Result.objects.get(pk=result_map[line['result_id']]) r.result = result r.club = r.result.club r.save() db.reset_queries() except KeyError: continue print "calculating reg times" for reg in Registration.objects.select_related( 'results').all().iterator(): reg.calc_times() #House keeping nora = Club.objects.get(safe_name='noraascc') user = User.objects.get(username="******") nora.group.user_set.add(user)