def test_class_two(self):
print '==================== Main start ==================== ' + time.strftime(
"%c")
t0 = time.clock()
print "time start= {0}".format(t0)
atmosphere = Atmosphere()
t1 = time.clock()
print "simulation time= {0} - simulation duration= {1:3.10f} seconds".format(
t1, (t1 - t0))
altitudeMeters = 10.0
print 'air density= ' + str(
atmosphere.getAirDensityKilogramsPerCubicMeters(
altitudeMeters)) + ' kg / meters ^^ 3'
print '==================== air density at given altitudes ==================== ' + time.strftime(
"%c")
for altitudeMeters in ['10.0', '1000.0', '2000.0', '3000.0', '4000.0']:
strMsg = 'altitude= ' + str(
altitudeMeters) + ' meters ... air density= '
strMsg += str(
atmosphere.getAirDensityKilogramsPerCubicMeters(
float(altitudeMeters)))
strMsg += ' kg / cubic meters'
print strMsg
def test_class_one(self):
print '==================== Main start ==================== ' + time.strftime(
"%c")
t0 = time.clock()
print "time start= {0}".format(t0)
atmosphere = Atmosphere()
t1 = time.clock()
print "simulation time= {0} - simulation duration= {1:3.10f} seconds".format(
t1, (t1 - t0))
print '==================== load airports ==================== ' + time.strftime(
"%c")
airportsDB = AirportsDatabase()
assert airportsDB.read()
print '==================== air density at airports field elevation ==================== ' + time.strftime(
"%c")
for airport in airportsDB.getAirports():
print '=======================' + airport.getName(
) + '===================='
print 'field elevation= ' + str(
airport.getFieldElevationAboveSeaLevelMeters()) + ' meters'
altitudeMeters = airport.getFieldElevationAboveSeaLevelMeters()
print 'air density= ' + str(
atmosphere.getAirDensityKilogramsPerCubicMeters(
altitudeMeters)) + ' kg / meters ^^ 3'
def test_class_two(self):
print '==================== Main start ==================== '+ time.strftime("%c")
t0 = time.clock()
print "time start= {0}".format( t0)
atmosphere = Atmosphere()
t1 = time.clock()
print "simulation time= {0} - simulation duration= {1:3.10f} seconds".format(t1 , (t1-t0))
altitudeMeters = 10.0
print 'air density= ' + str(atmosphere.getAirDensityKilogramsPerCubicMeters(altitudeMeters)) + ' kg / meters ^^ 3'
print '==================== air density at given altitudes ==================== '+ time.strftime("%c")
for altitudeMeters in ['10.0', '1000.0', '2000.0', '3000.0', '4000.0']:
strMsg = 'altitude= ' + str(altitudeMeters) + ' meters ... air density= '
strMsg += str(atmosphere.getAirDensityKilogramsPerCubicMeters(float(altitudeMeters)))
strMsg += ' kg / cubic meters'
print strMsg
def test_class_one(self):
print '==================== Main start ==================== '+ time.strftime("%c")
t0 = time.clock()
print "time start= {0}".format( t0)
atmosphere = Atmosphere()
t1 = time.clock()
print "simulation time= {0} - simulation duration= {1:3.10f} seconds".format(t1 , (t1-t0))
print '==================== load airports ==================== '+ time.strftime("%c")
airportsDB = AirportsDatabase()
assert airportsDB.read()
print '==================== air density at airports field elevation ==================== '+ time.strftime("%c")
for airport in airportsDB.getAirports():
print '=======================' + airport.getName() + '===================='
print 'field elevation= ' + str(airport.getFieldElevationAboveSeaLevelMeters()) + ' meters'
altitudeMeters = airport.getFieldElevationAboveSeaLevelMeters()
print 'air density= ' + str(atmosphere.getAirDensityKilogramsPerCubicMeters(altitudeMeters)) + ' kg / meters ^^ 3'
