evanthebouncy/exp.py

## exp.py
# how much exp if I catch 2 pidgeys and 4 ratatas?
# here 2 pidgey is expressed as (2, 12) where 2 is number of pidgey
# and 12 is how many candy it takes for a pidgey to evolve
# the same goes to ratata, 4 ratatas, and a ratata takes 25 candies
caught = [(1, 400)]

# are you using egg? True or False
lucky_egg = False


###### CODE #######
# given you caught a new pokemon, can you evolve it?
# returns a tuple (can_evolve, candy_after_evolve)
def evolve1(n_candy, num_to_evolve):
  # a new pokemon is added, we get 3 more candies
  cur_candy = n_candy + 3
  # if cannot evolve, sell it and store 1 more candy
  if cur_candy < num_to_evolve:
    return (0, cur_candy + 1)
  # otherwise, evolve the pokemon, consuming the candies
  else:
    candy_after_evo = cur_candy - num_to_evolve
    # evolution grants 1 candy, selling the poke 1 extra
    return (1, candy_after_evo + 2)

# if you have n_candy at start
# given the cost of candy it takes to evolve
# and the number of pokemon you caught
# what's the final number of evolution u can afford and candy leftover
def evolve_n(n_candy, num_to_evolve, num_poke_caught):
  cur_state = (0, n_candy)
  for i in range(num_poke_caught):
    # print cur_state
    num_evol, n_candy = cur_state
    additional_evol, res_candy = evolve1(n_candy, num_to_evolve)
    cur_state = (num_evol + additional_evol, res_candy)
  return cur_state

# find the average evolution
def avg_evol(num_to_evolve):
  # mapping from num_candy to num_of evolves and num_poke at that point
  seen_states = dict()
  # the cur_state is (num_evol, num_candy)
  cur_state = (0, 0)
  pokemon_caught = 0
  while True:
    # print cur_state
    num_evol, num_candy = cur_state
    if num_candy in seen_states:
      previous_evol, previous_caught = seen_states[num_candy]
      current_evol = num_evol
      return float(num_evol - previous_evol) / (pokemon_caught - previous_caught)
    else:
      seen_states[num_candy] = (num_evol, pokemon_caught)

    pokemon_caught += 1
    additional_evol, res_candy = evolve1(num_candy, num_to_evolve)
    cur_state = (num_evol + additional_evol, res_candy)

def exp_worth_evo(num_to_evolve):
  return 500.0 * avg_evol(num_to_evolve)

def total_evo_exp(lst_caught):
  ret = 0.0
  for xx in lst_caught:
    num, lvl_candy = xx
    ret += exp_worth_evo(lvl_candy) * num
  return ret

def total_exp(lst_caught, lucky_egg):
  multi = 1
  if lucky_egg:
  	multi = 2
  num_poke = sum([x[0] for x in lst_caught])
  return total_evo_exp(lst_caught) * multi + 100 * num_poke

print "you have made this many exp: "
print total_exp(caught, lucky_egg)
	# how much exp if I catch 2 pidgeys and 4 ratatas?
	# here 2 pidgey is expressed as (2, 12) where 2 is number of pidgey
	# and 12 is how many candy it takes for a pidgey to evolve
	# the same goes to ratata, 4 ratatas, and a ratata takes 25 candies
	caught = [(1, 400)]

	# are you using egg? True or False
	lucky_egg = False



	###### CODE #######
	# given you caught a new pokemon, can you evolve it?
	# returns a tuple (can_evolve, candy_after_evolve)
	def evolve1(n_candy, num_to_evolve):
	# a new pokemon is added, we get 3 more candies
	cur_candy = n_candy + 3
	# if cannot evolve, sell it and store 1 more candy
	if cur_candy < num_to_evolve:
	return (0, cur_candy + 1)
	# otherwise, evolve the pokemon, consuming the candies
	else:
	candy_after_evo = cur_candy - num_to_evolve
	# evolution grants 1 candy, selling the poke 1 extra
	return (1, candy_after_evo + 2)

	# if you have n_candy at start
	# given the cost of candy it takes to evolve
	# and the number of pokemon you caught
	# what's the final number of evolution u can afford and candy leftover
	def evolve_n(n_candy, num_to_evolve, num_poke_caught):
	cur_state = (0, n_candy)
	for i in range(num_poke_caught):
	# print cur_state
	num_evol, n_candy = cur_state
	additional_evol, res_candy = evolve1(n_candy, num_to_evolve)
	cur_state = (num_evol + additional_evol, res_candy)
	return cur_state

	# find the average evolution
	def avg_evol(num_to_evolve):
	# mapping from num_candy to num_of evolves and num_poke at that point
	seen_states = dict()
	# the cur_state is (num_evol, num_candy)
	cur_state = (0, 0)
	pokemon_caught = 0
	while True:
	# print cur_state
	num_evol, num_candy = cur_state
	if num_candy in seen_states:
	previous_evol, previous_caught = seen_states[num_candy]
	current_evol = num_evol
	return float(num_evol - previous_evol) / (pokemon_caught - previous_caught)
	else:
	seen_states[num_candy] = (num_evol, pokemon_caught)

	pokemon_caught += 1
	additional_evol, res_candy = evolve1(num_candy, num_to_evolve)
	cur_state = (num_evol + additional_evol, res_candy)

	def exp_worth_evo(num_to_evolve):
	return 500.0 * avg_evol(num_to_evolve)

	def total_evo_exp(lst_caught):
	ret = 0.0
	for xx in lst_caught:
	num, lvl_candy = xx
	ret += exp_worth_evo(lvl_candy) * num
	return ret

	def total_exp(lst_caught, lucky_egg):
	multi = 1
	if lucky_egg:
	multi = 2
	num_poke = sum([x[0] for x in lst_caught])
	return total_evo_exp(lst_caught) * multi + 100 * num_poke

	print "you have made this many exp: "
	print total_exp(caught, lucky_egg)