codecademydev/script.py Secret

## script.py
# names of hurricanes
names = ['Cuba I', 'San Felipe II Okeechobee', 'Bahamas', 'Cuba II', 'CubaBrownsville', 'Tampico', 'Labor Day', 'New England', 'Carol', 'Janet', 'Carla', 'Hattie', 'Beulah', 'Camille', 'Edith', 'Anita', 'David', 'Allen', 'Gilbert', 'Hugo', 'Andrew', 'Mitch', 'Isabel', 'Ivan', 'Emily', 'Katrina', 'Rita', 'Wilma', 'Dean', 'Felix', 'Matthew', 'Irma', 'Maria', 'Michael']

# months of hurricanes
months = ['October', 'September', 'September', 'November', 'August', 'September', 'September', 'September', 'September', 'September', 'September', 'October', 'September', 'August', 'September', 'September', 'August', 'August', 'September', 'September', 'August', 'October', 'September', 'September', 'July', 'August', 'September', 'October', 'August', 'September', 'October', 'September', 'September', 'October']

# years of hurricanes
years = [1924, 1928, 1932, 1932, 1933, 1933, 1935, 1938, 1953, 1955, 1961, 1961, 1967, 1969, 1971, 1977, 1979, 1980, 1988, 1989, 1992, 1998, 2003, 2004, 2005, 2005, 2005, 2005, 2007, 2007, 2016, 2017, 2017, 2018]

# maximum sustained winds (mph) of hurricanes
max_sustained_winds = [165, 160, 160, 175, 160, 160, 185, 160, 160, 175, 175, 160, 160, 175, 160, 175, 175, 190, 185, 160, 175, 180, 165, 165, 160, 175, 180, 185, 175, 175, 165, 180, 175, 160]

# areas affected by each hurricane
areas_affected = [['Central America', 'Mexico', 'Cuba', 'Florida', 'The Bahamas'], ['Lesser Antilles', 'The Bahamas', 'United States East Coast', 'Atlantic Canada'], ['The Bahamas', 'Northeastern United States'], ['Lesser Antilles', 'Jamaica', 'Cayman Islands', 'Cuba', 'The Bahamas', 'Bermuda'], ['The Bahamas', 'Cuba', 'Florida', 'Texas', 'Tamaulipas'], ['Jamaica', 'Yucatn Peninsula'], ['The Bahamas', 'Florida', 'Georgia', 'The Carolinas', 'Virginia'], ['Southeastern United States', 'Northeastern United States', 'Southwestern Quebec'], ['Bermuda', 'New England', 'Atlantic Canada'], ['Lesser Antilles', 'Central America'], ['Texas', 'Louisiana', 'Midwestern United States'], ['Central America'], ['The Caribbean', 'Mexico', 'Texas'], ['Cuba', 'United States Gulf Coast'], ['The Caribbean', 'Central America', 'Mexico', 'United States Gulf Coast'], ['Mexico'], ['The Caribbean', 'United States East coast'], ['The Caribbean', 'Yucatn Peninsula', 'Mexico', 'South Texas'], ['Jamaica', 'Venezuela', 'Central America', 'Hispaniola', 'Mexico'], ['The Caribbean', 'United States East Coast'], ['The Bahamas', 'Florida', 'United States Gulf Coast'], ['Central America', 'Yucatn Peninsula', 'South Florida'], ['Greater Antilles', 'Bahamas', 'Eastern United States', 'Ontario'], ['The Caribbean', 'Venezuela', 'United States Gulf Coast'], ['Windward Islands', 'Jamaica', 'Mexico', 'Texas'], ['Bahamas', 'United States Gulf Coast'], ['Cuba', 'United States Gulf Coast'], ['Greater Antilles', 'Central America', 'Florida'], ['The Caribbean', 'Central America'], ['Nicaragua', 'Honduras'], ['Antilles', 'Venezuela', 'Colombia', 'United States East Coast', 'Atlantic Canada'], ['Cape Verde', 'The Caribbean', 'British Virgin Islands', 'U.S. Virgin Islands', 'Cuba', 'Florida'], ['Lesser Antilles', 'Virgin Islands', 'Puerto Rico', 'Dominican Republic', 'Turks and Caicos Islands'], ['Central America', 'United States Gulf Coast (especially Florida Panhandle)']]

# damages (USD($)) of hurricanes
damages = ['Damages not recorded', '100M', 'Damages not recorded', '40M', '27.9M', '5M', 'Damages not recorded', '306M', '2M', '65.8M', '326M', '60.3M', '208M', '1.42B', '25.4M', 'Damages not recorded', '1.54B', '1.24B', '7.1B', '10B', '26.5B', '6.2B', '5.37B', '23.3B', '1.01B', '125B', '12B', '29.4B', '1.76B', '720M', '15.1B', '64.8B', '91.6B', '25.1B']

# deaths for each hurricane
deaths = [90,4000,16,3103,179,184,408,682,5,1023,43,319,688,259,37,11,2068,269,318,107,65,19325,51,124,17,1836,125,87,45,133,603,138,3057,74]

# 1
# Update Recorded Damages
conversion = {"M": 1000000,
              "B": 1000000000}
##updated_damages=[]
def updated_recorded_damages(cost):
  updated_damages=[]
  for i in cost:
    ##print(i)
    if i == "Damages not recorded":
      updated_damages.append(i)
      ##print(updated_damages)
    elif i.endswith("M"):
      i = i[:-1]
      i = float(i) * conversion['M']
      updated_damages.append(i)
    else:
      i = i[:-1]
      i = float(i) * conversion['B']
      updated_damages.append(i)
  return updated_damages
# test function by updating damages
##print(updated_recorded_damages(damages))
updated_damages2=updated_recorded_damages(damages)

##print(len(deaths))
# 2
# Create a Table
def dict_hurricanes(name, month, year, mwinds, area, damage, death):
  hurricanes={}
  for i in range(0, len(deaths)):
    hurricanes[name[i]]={"Name":name[i], "Month":month[i], "Year":year[i], "Max Sustained Wind":mwinds[i], "Areas Affected":area[i], "Damage":damage[i], "Deaths":death[i] }
  return hurricanes


hurricanes2=dict_hurricanes(names, months, years, max_sustained_winds, areas_affected, updated_damages2, deaths)


# Create and view the hurricanes dictionary
##print(hurricanes2)
# 3
# Organizing by Year
def create_year_dictionary(cane):
  hurricanes_by_year=dict()
  for canes in cane:
    current_year=cane[canes]["Year"]
    ##print(current_year)
    current_cane=cane[canes]
    ##print(current_cane)
    if current_year not in hurricanes_by_year:
      hurricanes_by_year[current_year]=[current_cane]
    else:
        hurricanes_by_year[current_year].append(current_cane)
  return hurricanes_by_year


hby=create_year_dictionary(hurricanes2)
##print(hby[1932])


# create a new dictionary of hurricanes with year and key


# 4
# Counting Damaged Areas

def areas_damaged(damage):
  damage_by_area=dict()
  for damages in damage:
    current_damage=damage[damages]["Areas Affected"]
    for i in current_damage:
      ##print(i)
      if i not in damage_by_area:
        damage_by_area[i]=1
        ##print(damage_by_area)
      else:
        damage_by_area[i]+=1
        ##print(damage_by_area)
  return damage_by_area

dby=areas_damaged(hurricanes2)
#print(dby)

# create dictionary of areas to store the number of hurricanes involved in
def max_area_damaged(damage):
  max_area="fdss"
  max_area_count=0
  for i in damage:
    #print(i)
    current_area=damage[i]
    #print(current_area)
    if current_area > max_area_count:
     max_area=i
     #print(max_area)
     max_area_count=damage[i]
     #print(max_area_count)
  return max_area, max_area_count

##print(max_area_damaged(dby))


# 5
# Calculating Maximum Hurricane Count

# find most frequently affected area and the number of hurricanes involved in


# 6
# Calculating the Deadliest Hurricane
def deaths_by_canes(cane):
  max_mortality_cane="fdss"
  max_mortality=0
  for i in cane:
    #print(i)
    current_deaths=cane[i]["Deaths"]
    #print(current_deaths)
    if current_deaths > max_mortality:
     max_mortality_cane=i
     #print(max_area)
     max_mortality=current_deaths
     #print(max_area_count)
  return max_mortality_cane, max_mortality
dbc=deaths_by_canes(hurricanes2)
##print(deaths_by_canes(hurricanes2))
##print(dbc)

# find highest mortality hurricane and the number of deaths

# 7
# Rating Hurricanes by Mortality
def mortality_by_canes(deaths):
  hurricanes_by_mortality={0:[], 1:[], 2:[], 3:[], 4:[], 5:[]}
  for i in deaths:
    ##print(i)
    current_deaths=deaths[i]["Deaths"]
    ##print(current_deaths)
    if current_deaths >0 and current_deaths<=100:
     hurricanes_by_mortality[1].append(deaths[i])
     #print(hurricanes_by_mortality[0])
    elif current_deaths > 100 and current_deaths<=500:
      hurricanes_by_mortality[2].append(deaths[i])
      ##print(hurricanes_by_mortality[2])
    elif current_deaths > 500 and current_deaths<=1000:
      hurricanes_by_mortality[3].append(deaths[i])
      #print(hurricanes_by_mortality[3])
    elif current_deaths > 1000 and current_deaths<=10000:
      hurricanes_by_mortality[4].append(deaths[i])
      #print(hurricanes_by_mortality[4])
    elif current_deaths >= 10000:
      hurricanes_by_mortality[5].append(deaths[i])
      #print(hurricanes_by_mortality[5])
    else:
      hurricanes_by_mortality[0].append(deaths[i])
      print(hurricanes_by_mortality)
  return hurricanes_by_mortality

mortality_by_canes(hurricanes2)
#print(mortality_by_canes(hurricanes2)[5])


# categorize hurricanes in new dictionary with mortality severity as key


# 8 Calculating Hurricane Maximum Damage

# find highest damage inducing hurricane and its total cost
def max_cane_cost(damage):
  max_damage_cane="fdss"
  max_damage=0
  for i in damage:
    #print(i)
    current_damage=damage[i]["Damage"]
    #print(current_damage)
    if current_damage!="Damages not recorded":
      max_damage=current_damage
      #print(max_damage)
      max_damage_cane=i

  return max_damage_cane, max_damage


##print(max_cane_cost(hurricanes2))


# 9
# Rating Hurricanes by Damage
damage_scale = {0: 0,
                1: 100000000,
                2: 1000000000,
                3: 10000000000,
                4: 50000000000}

def damage_by_canes(damage):
  hurricanes_by_damage={0:[], 1:[], 2:[], 3:[], 4:[], 5:[], "Damages not Recorded":[]}
  for i in damage:
    ##print(damage[i]["Damage"])
    dmc=damage[i]["Damage"]
    if dmc=="Damages not recorded":
      hurricanes_by_damage["Damages not Recorded"].append(damage[i])
      ##print(hurricanes_by_damage)
    if damage[i]["Damage"]!="Damages not recorded":
      current_damage=damage[i]["Damage"]
      ##print(current_damage)
      if current_damage > damage_scale[0] and current_damage<=damage_scale[1]:
        hurricanes_by_damage[1].append(damage[i])
        #print(hurricanes_by_damage)
      elif current_damage >damage_scale[1] and current_damage<=damage_scale[2]:
        hurricanes_by_damage[2].append(damage[i])
        #print(hurricanes_by_damage[2])
      elif current_damage > damage_scale[2] and current_damage <= damage_scale[3]:
        hurricanes_by_damage[3].append(damage[i])
        #print(hurricanes_by_damage[3])
      elif current_damage > damage_scale[3] and current_damage<=damage_scale[4]:
        hurricanes_by_damage[4].append(damage[i])
        #print(hurricanes_by_damage[4])
      elif current_damage >= damage_scale[4]:
        hurricanes_by_damage[5].append(damage[i])
        #print(hurricanes_by_damage[5])
      else:
        hurricanes_by_mortality[0].append(deaths[i])
        #print(hurricanes_by_mortality)
  return hurricanes_by_damage


# categorize hurricanes in new dictionary with damage severity as key

print(damage_by_canes(hurricanes2)["Damages not Recorded"])
	# names of hurricanes
	names = ['Cuba I', 'San Felipe II Okeechobee', 'Bahamas', 'Cuba II', 'CubaBrownsville', 'Tampico', 'Labor Day', 'New England', 'Carol', 'Janet', 'Carla', 'Hattie', 'Beulah', 'Camille', 'Edith', 'Anita', 'David', 'Allen', 'Gilbert', 'Hugo', 'Andrew', 'Mitch', 'Isabel', 'Ivan', 'Emily', 'Katrina', 'Rita', 'Wilma', 'Dean', 'Felix', 'Matthew', 'Irma', 'Maria', 'Michael']

	# months of hurricanes
	months = ['October', 'September', 'September', 'November', 'August', 'September', 'September', 'September', 'September', 'September', 'September', 'October', 'September', 'August', 'September', 'September', 'August', 'August', 'September', 'September', 'August', 'October', 'September', 'September', 'July', 'August', 'September', 'October', 'August', 'September', 'October', 'September', 'September', 'October']

	# years of hurricanes
	years = [1924, 1928, 1932, 1932, 1933, 1933, 1935, 1938, 1953, 1955, 1961, 1961, 1967, 1969, 1971, 1977, 1979, 1980, 1988, 1989, 1992, 1998, 2003, 2004, 2005, 2005, 2005, 2005, 2007, 2007, 2016, 2017, 2017, 2018]

	# maximum sustained winds (mph) of hurricanes
	max_sustained_winds = [165, 160, 160, 175, 160, 160, 185, 160, 160, 175, 175, 160, 160, 175, 160, 175, 175, 190, 185, 160, 175, 180, 165, 165, 160, 175, 180, 185, 175, 175, 165, 180, 175, 160]

	# areas affected by each hurricane
	areas_affected = [['Central America', 'Mexico', 'Cuba', 'Florida', 'The Bahamas'], ['Lesser Antilles', 'The Bahamas', 'United States East Coast', 'Atlantic Canada'], ['The Bahamas', 'Northeastern United States'], ['Lesser Antilles', 'Jamaica', 'Cayman Islands', 'Cuba', 'The Bahamas', 'Bermuda'], ['The Bahamas', 'Cuba', 'Florida', 'Texas', 'Tamaulipas'], ['Jamaica', 'Yucatn Peninsula'], ['The Bahamas', 'Florida', 'Georgia', 'The Carolinas', 'Virginia'], ['Southeastern United States', 'Northeastern United States', 'Southwestern Quebec'], ['Bermuda', 'New England', 'Atlantic Canada'], ['Lesser Antilles', 'Central America'], ['Texas', 'Louisiana', 'Midwestern United States'], ['Central America'], ['The Caribbean', 'Mexico', 'Texas'], ['Cuba', 'United States Gulf Coast'], ['The Caribbean', 'Central America', 'Mexico', 'United States Gulf Coast'], ['Mexico'], ['The Caribbean', 'United States East coast'], ['The Caribbean', 'Yucatn Peninsula', 'Mexico', 'South Texas'], ['Jamaica', 'Venezuela', 'Central America', 'Hispaniola', 'Mexico'], ['The Caribbean', 'United States East Coast'], ['The Bahamas', 'Florida', 'United States Gulf Coast'], ['Central America', 'Yucatn Peninsula', 'South Florida'], ['Greater Antilles', 'Bahamas', 'Eastern United States', 'Ontario'], ['The Caribbean', 'Venezuela', 'United States Gulf Coast'], ['Windward Islands', 'Jamaica', 'Mexico', 'Texas'], ['Bahamas', 'United States Gulf Coast'], ['Cuba', 'United States Gulf Coast'], ['Greater Antilles', 'Central America', 'Florida'], ['The Caribbean', 'Central America'], ['Nicaragua', 'Honduras'], ['Antilles', 'Venezuela', 'Colombia', 'United States East Coast', 'Atlantic Canada'], ['Cape Verde', 'The Caribbean', 'British Virgin Islands', 'U.S. Virgin Islands', 'Cuba', 'Florida'], ['Lesser Antilles', 'Virgin Islands', 'Puerto Rico', 'Dominican Republic', 'Turks and Caicos Islands'], ['Central America', 'United States Gulf Coast (especially Florida Panhandle)']]

	# damages (USD($)) of hurricanes
	damages = ['Damages not recorded', '100M', 'Damages not recorded', '40M', '27.9M', '5M', 'Damages not recorded', '306M', '2M', '65.8M', '326M', '60.3M', '208M', '1.42B', '25.4M', 'Damages not recorded', '1.54B', '1.24B', '7.1B', '10B', '26.5B', '6.2B', '5.37B', '23.3B', '1.01B', '125B', '12B', '29.4B', '1.76B', '720M', '15.1B', '64.8B', '91.6B', '25.1B']

	# deaths for each hurricane
	deaths = [90,4000,16,3103,179,184,408,682,5,1023,43,319,688,259,37,11,2068,269,318,107,65,19325,51,124,17,1836,125,87,45,133,603,138,3057,74]

	# 1
	# Update Recorded Damages
	conversion = {"M": 1000000,
	"B": 1000000000}
	##updated_damages=[]
	def updated_recorded_damages(cost):
	updated_damages=[]
	for i in cost:
	##print(i)
	if i == "Damages not recorded":
	updated_damages.append(i)
	##print(updated_damages)
	elif i.endswith("M"):
	i = i[:-1]
	i = float(i) * conversion['M']
	updated_damages.append(i)
	else:
	i = i[:-1]
	i = float(i) * conversion['B']
	updated_damages.append(i)
	return updated_damages
	# test function by updating damages
	##print(updated_recorded_damages(damages))
	updated_damages2=updated_recorded_damages(damages)

	##print(len(deaths))
	# 2
	# Create a Table
	def dict_hurricanes(name, month, year, mwinds, area, damage, death):
	hurricanes={}
	for i in range(0, len(deaths)):
	hurricanes[name[i]]={"Name":name[i], "Month":month[i], "Year":year[i], "Max Sustained Wind":mwinds[i], "Areas Affected":area[i], "Damage":damage[i], "Deaths":death[i] }
	return hurricanes


	hurricanes2=dict_hurricanes(names, months, years, max_sustained_winds, areas_affected, updated_damages2, deaths)


	# Create and view the hurricanes dictionary
	##print(hurricanes2)
	# 3
	# Organizing by Year
	def create_year_dictionary(cane):
	hurricanes_by_year=dict()
	for canes in cane:
	current_year=cane[canes]["Year"]
	##print(current_year)
	current_cane=cane[canes]
	##print(current_cane)
	if current_year not in hurricanes_by_year:
	hurricanes_by_year[current_year]=[current_cane]
	else:
	hurricanes_by_year[current_year].append(current_cane)
	return hurricanes_by_year


	hby=create_year_dictionary(hurricanes2)
	##print(hby[1932])


	# create a new dictionary of hurricanes with year and key


	# 4
	# Counting Damaged Areas

	def areas_damaged(damage):
	damage_by_area=dict()
	for damages in damage:
	current_damage=damage[damages]["Areas Affected"]
	for i in current_damage:
	##print(i)
	if i not in damage_by_area:
	damage_by_area[i]=1
	##print(damage_by_area)
	else:
	damage_by_area[i]+=1
	##print(damage_by_area)
	return damage_by_area

	dby=areas_damaged(hurricanes2)
	#print(dby)

	# create dictionary of areas to store the number of hurricanes involved in
	def max_area_damaged(damage):
	max_area="fdss"
	max_area_count=0
	for i in damage:
	#print(i)
	current_area=damage[i]
	#print(current_area)
	if current_area > max_area_count:
	max_area=i
	#print(max_area)
	max_area_count=damage[i]
	#print(max_area_count)
	return max_area, max_area_count

	##print(max_area_damaged(dby))




	# 5
	# Calculating Maximum Hurricane Count

	# find most frequently affected area and the number of hurricanes involved in


	# 6
	# Calculating the Deadliest Hurricane
	def deaths_by_canes(cane):
	max_mortality_cane="fdss"
	max_mortality=0
	for i in cane:
	#print(i)
	current_deaths=cane[i]["Deaths"]
	#print(current_deaths)
	if current_deaths > max_mortality:
	max_mortality_cane=i
	#print(max_area)
	max_mortality=current_deaths
	#print(max_area_count)
	return max_mortality_cane, max_mortality
	dbc=deaths_by_canes(hurricanes2)
	##print(deaths_by_canes(hurricanes2))
	##print(dbc)

	# find highest mortality hurricane and the number of deaths

	# 7
	# Rating Hurricanes by Mortality
	def mortality_by_canes(deaths):
	hurricanes_by_mortality={0:[], 1:[], 2:[], 3:[], 4:[], 5:[]}
	for i in deaths:
	##print(i)
	current_deaths=deaths[i]["Deaths"]
	##print(current_deaths)
	if current_deaths >0 and current_deaths<=100:
	hurricanes_by_mortality[1].append(deaths[i])
	#print(hurricanes_by_mortality[0])
	elif current_deaths > 100 and current_deaths<=500:
	hurricanes_by_mortality[2].append(deaths[i])
	##print(hurricanes_by_mortality[2])
	elif current_deaths > 500 and current_deaths<=1000:
	hurricanes_by_mortality[3].append(deaths[i])
	#print(hurricanes_by_mortality[3])
	elif current_deaths > 1000 and current_deaths<=10000:
	hurricanes_by_mortality[4].append(deaths[i])
	#print(hurricanes_by_mortality[4])
	elif current_deaths >= 10000:
	hurricanes_by_mortality[5].append(deaths[i])
	#print(hurricanes_by_mortality[5])
	else:
	hurricanes_by_mortality[0].append(deaths[i])
	print(hurricanes_by_mortality)
	return hurricanes_by_mortality

	mortality_by_canes(hurricanes2)
	#print(mortality_by_canes(hurricanes2)[5])



	# categorize hurricanes in new dictionary with mortality severity as key


	# 8 Calculating Hurricane Maximum Damage

	# find highest damage inducing hurricane and its total cost
	def max_cane_cost(damage):
	max_damage_cane="fdss"
	max_damage=0
	for i in damage:
	#print(i)
	current_damage=damage[i]["Damage"]
	#print(current_damage)
	if current_damage!="Damages not recorded":
	max_damage=current_damage
	#print(max_damage)
	max_damage_cane=i

	return max_damage_cane, max_damage


	##print(max_cane_cost(hurricanes2))




	# 9
	# Rating Hurricanes by Damage
	damage_scale = {0: 0,
	1: 100000000,
	2: 1000000000,
	3: 10000000000,
	4: 50000000000}

	def damage_by_canes(damage):
	hurricanes_by_damage={0:[], 1:[], 2:[], 3:[], 4:[], 5:[], "Damages not Recorded":[]}
	for i in damage:
	##print(damage[i]["Damage"])
	dmc=damage[i]["Damage"]
	if dmc=="Damages not recorded":
	hurricanes_by_damage["Damages not Recorded"].append(damage[i])
	##print(hurricanes_by_damage)
	if damage[i]["Damage"]!="Damages not recorded":
	current_damage=damage[i]["Damage"]
	##print(current_damage)
	if current_damage > damage_scale[0] and current_damage<=damage_scale[1]:
	hurricanes_by_damage[1].append(damage[i])
	#print(hurricanes_by_damage)
	elif current_damage >damage_scale[1] and current_damage<=damage_scale[2]:
	hurricanes_by_damage[2].append(damage[i])
	#print(hurricanes_by_damage[2])
	elif current_damage > damage_scale[2] and current_damage <= damage_scale[3]:
	hurricanes_by_damage[3].append(damage[i])
	#print(hurricanes_by_damage[3])
	elif current_damage > damage_scale[3] and current_damage<=damage_scale[4]:
	hurricanes_by_damage[4].append(damage[i])
	#print(hurricanes_by_damage[4])
	elif current_damage >= damage_scale[4]:
	hurricanes_by_damage[5].append(damage[i])
	#print(hurricanes_by_damage[5])
	else:
	hurricanes_by_mortality[0].append(deaths[i])
	#print(hurricanes_by_mortality)
	return hurricanes_by_damage


	# categorize hurricanes in new dictionary with damage severity as key

	print(damage_by_canes(hurricanes2)["Damages not Recorded"])