veekun_pokedex/pokedex/util/movesets.py
2011-04-26 20:09:04 +03:00

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#! /usr/bin/env python
# Encoding: UTF-8
import sys
import argparse
import itertools
from collections import defaultdict, namedtuple
from sqlalchemy.orm import aliased
from sqlalchemy.orm.exc import NoResultFound
from sqlalchemy.sql.expression import not_, and_, or_
from pokedex.db import connect, tables, util
from pokedex.util import querytimer
from pokedex.util.astar import a_star, Node
###
### Illegal Moveset exceptions
###
class IllegalMoveCombination(ValueError): pass
class TooManyMoves(IllegalMoveCombination): pass
class NoMoves(IllegalMoveCombination): pass
class MovesNotLearnable(IllegalMoveCombination): pass
class NoParent(IllegalMoveCombination): pass
class TargetExcluded(IllegalMoveCombination): pass
###
### Generic helpers
###
def powerset(iterable):
# recipe from: http://docs.python.org/library/itertools.html
"powerset([1,2,3]) --> () (1,) (2,) (3,) (1,2) (1,3) (2,3) (1,2,3)"
s = list(iterable)
return itertools.chain.from_iterable(itertools.combinations(s, r)
for r in range(len(s)+1))
###
### Search information object
###
class MovesetSearch(object):
def __init__(self, session, pokemon, version, moves, level=100, costs=None,
exclude_versions=(), exclude_pokemon=(), debug=False):
self.generator = None
if not moves:
raise NoMoves('No moves specified.')
elif len(moves) > 4:
raise NoMoves('Too many moves specified.')
self.debug = debug
self.session = session
self.sketch = util.get(session, tables.Move, identifier=u'sketch').id
self.no_eggs_group = util.get(session, tables.EggGroup,
identifier=u'no-eggs').id
self.ditto_group = util.get(session, tables.EggGroup,
identifier=u'ditto').id
if costs is None:
self.costs = default_costs
else:
self.costs = costs
self.load_pokemon()
self.load_moves()
self.excluded_families = frozenset(p.evolution_chain_id
for p in exclude_pokemon)
if debug:
print 'Specified moves:', [move.id for move in moves]
self.goal_pokemon = pokemon.id
self.goal_moves = frozenset(move.id for move in moves)
self.goal_version_group = version.version_group_id
self.goal_level = level
if pokemon:
self.goal_evolution_chain = pokemon.evolution_chain_id
if self.goal_evolution_chain in self.excluded_families:
raise TargetExcluded('The target pokemon was excluded.')
else:
self.goal_evolution_chain = None
# Fill self.generation_id_by_version_group
self.load_version_groups(version.version_group_id,
[v.version_group_id for v in exclude_versions])
self.pokemon_moves = defaultdict( # key: pokemon
lambda: defaultdict( # key: version_group
lambda: defaultdict( # key: move
lambda: defaultdict( # key: method
list)))) # ordered list of (level, cost)
self.movepools = defaultdict(dict) # evo chain -> move -> best cost
self.learnpools = defaultdict(set) # evo chain -> move, w/o egg moves
easy_moves, non_egg_moves = self.load_pokemon_moves(
self.goal_evolution_chain, 'family')
hard_moves = self.goal_moves - easy_moves
self.egg_moves = self.goal_moves - non_egg_moves
if hard_moves:
# Have to breed!
self.load_pokemon_moves(self.goal_evolution_chain, 'others')
self.construct_breed_graph()
self.find_duplicate_versions()
self.output_objects = dict()
kwargs = dict()
if debug:
self._astar_debug_notify_counter = 0
kwargs['notify'] = self.astar_debug_notify
self.generator = InitialNode(self).find_all_paths(**kwargs)
def load_version_groups(self, version, excluded):
"""Load generation_id_by_version_group
"""
query = self.session.query(tables.VersionGroup.id,
tables.VersionGroup.generation_id)
query = query.join(tables.Version.version_group)
if excluded:
query = query.filter(not_(tables.VersionGroup.id.in_(excluded)))
self.generation_id_by_version_group = dict(query)
def expand(v2):
for v1 in self.generation_id_by_version_group:
if self.trade_cost(v1, v2):
yield 0, None, v1
def is_goal(v):
return True
goal = self.goal_version_group
filtered_map = {goal: self.generation_id_by_version_group[goal]}
for result in a_star(self.goal_version_group, expand, is_goal):
for cost, transition, version in result:
filtered_map[version] = (
self.generation_id_by_version_group[version])
self.generation_id_by_version_group = filtered_map
if self.debug:
print 'Excluded version groups:', excluded
print 'Trade cost table:'
print '%03s' % '',
for g1 in sorted(self.generation_id_by_version_group):
print '%03s' % g1,
print
for g1 in sorted(self.generation_id_by_version_group):
print '%03s' % g1,
for g2 in sorted(self.generation_id_by_version_group):
print '%03s' % (self.trade_cost(g1, g2) or '---'),
print
def load_pokemon_moves(self, evolution_chain, selection):
"""Load pokemon_moves, movepools, learnpools, smeargle_families
`selection`:
'family' for loading only pokemon in evolution_chain
'others' for loading only pokemon NOT in evolution_chain
Returns: (easy_moves, non_egg_moves)
If `selection` == 'family':
easy_moves is a set of moves that are easier to obtain than by
breeding
non_egg_moves is a set of moves that don't require breeding
Otherwise, these are empty sets.
"""
if self.debug:
print 'Loading pokemon moves, %s %s' % (evolution_chain, selection)
query = self.session.query(
tables.PokemonMove.pokemon_id,
tables.PokemonMove.move_id,
tables.PokemonMove.version_group_id,
tables.PokemonMoveMethod.identifier,
tables.PokemonMove.level,
tables.Pokemon.evolution_chain_id,
)
query = query.join(tables.PokemonMove.pokemon)
query = query.filter(tables.PokemonMoveMethod.id ==
tables.PokemonMove.pokemon_move_method_id)
query = query.filter(tables.PokemonMove.version_group_id.in_(
set(self.generation_id_by_version_group)))
query = query.filter(or_(
tables.PokemonMove.level > 100, # XXX: Chaff?
tables.PokemonMove.move_id.in_(self.goal_moves),
tables.PokemonMove.move_id == self.sketch,
tables.PokemonMove.move_id.in_(
self.evolution_moves.values()),
))
if self.excluded_families:
query = query.filter(not_(tables.Pokemon.evolution_chain_id.in_(
self.excluded_families)))
if evolution_chain:
if selection == 'family':
query = query.filter(tables.Pokemon.evolution_chain_id == (
evolution_chain))
elif selection == 'others':
query = query.filter(tables.Pokemon.evolution_chain_id != (
evolution_chain))
query = query.order_by(tables.PokemonMove.level)
easy_moves = set()
non_egg_moves = set()
self.smeargle_families = set()
costs = self.costs
movepools = self.movepools
learnpools = self.learnpools
sketch_cost = costs['sketch']
breed_cost = costs['breed']
for pokemon, move, vg, method, level, chain in query:
if move in self.goal_moves:
if method == 'level-up':
cost = costs['level-up']
else:
gen = self.generation_id_by_version_group[vg]
if method == 'machine' and gen < 5:
cost = costs['machine-once']
elif method == 'tutor' and gen == 3:
cost = costs['tutor-once']
elif method == 'egg':
cost = costs['breed']
else:
cost = costs[method]
movepools[chain][move] = min(
movepools[chain].get(move, cost), cost)
if method != 'egg':
learnpools[chain].add(move)
non_egg_moves.add(move)
if cost < breed_cost:
easy_moves.add(move)
elif move == self.sketch:
cost = sketch_cost
self.smeargle_families.add(self.evolution_chains[pokemon])
else:
# An evolution move. We need to use it anyway if we need
# the evolution, so the cost can be an arbitrary positive
# number. But, do check if this family actually needs the move.
evolution_chain = self.evolution_chains[pokemon]
if move != self.evolution_moves.get(evolution_chain):
continue
cost = 1
self.pokemon_moves[pokemon][vg][move][method].append((level, cost))
if self.debug and selection == 'family':
print 'Easy moves:', sorted(easy_moves)
print 'Non-egg moves:', sorted(non_egg_moves)
if self.debug:
print 'Smeargle families:', sorted(self.smeargle_families)
return easy_moves, non_egg_moves
def trade_cost(self, version_group_from, version_group_to, *thing_generations):
"""Return cost of trading between versions, None if impossibble
`thing_generations` should be the generation IDs of the pokemon and
moves being traded.
"""
# XXX: this ignores HM transfer restrictions
gen_from = self.generation_id_by_version_group[version_group_from]
gen_to = self.generation_id_by_version_group[version_group_to]
if gen_from == gen_to:
return self.costs['trade']
elif gen_from in (1, 2):
if any(gen > gen_to for gen in thing_generations):
return None
elif gen_to in (1, 2):
return self.costs['trade']
else:
return None
elif gen_to in (1, 2):
return None
elif gen_from > gen_to:
return None
elif gen_from < gen_to - 1:
return None
else:
return self.costs['trade'] + self.costs['transfer']
def load_pokemon(self):
"""Load pokemon breed groups and evolutions
self.egg_groups: maps evolution chains to their sorted egg groups
(wil contain empty tuple for no-eggs or ditto)
self.evolution_chains: maps pokemon to their evolution chains
self.pokemon_by_evolution_chain: maps evolution chains to their pokemon
self.unbreedable: set of unbreedable pokemon
self.evolution_parents[pokemon] = the pre-evolved form
self.evolutions[pokemon] = list of (trigger, move, level, child)
self.evolution_moves[evolution_chain] = move required for evolution
self.babies[egg_group_id] = set of baby pokemon
self.hatch_counters[pokemon] = hatch counter
self.gender_rates[pokemon] = gender rate
"""
eg1 = tables.PokemonEggGroup
eg2 = aliased(tables.PokemonEggGroup)
query = self.session.query(
tables.Pokemon.id,
tables.Pokemon.evolution_chain_id,
tables.Pokemon.evolves_from_pokemon_id,
eg1.egg_group_id,
eg2.egg_group_id,
tables.EvolutionChain.baby_trigger_item_id,
tables.Pokemon.hatch_counter,
tables.Pokemon.gender_rate,
)
query = query.join(tables.Pokemon.evolution_chain)
query = query.join((eg1, eg1.pokemon_id == tables.Pokemon.id))
query = query.outerjoin((eg2, and_(
eg2.pokemon_id == tables.Pokemon.id,
eg1.egg_group_id < eg2.egg_group_id,
)))
bad_groups = (self.no_eggs_group, self.ditto_group)
unbreedable = dict() # pokemon->evolution chain
self.evolution_parents = dict()
self.egg_groups = defaultdict(tuple)
self.evolution_chains = dict()
self.pokemon_by_evolution_chain = defaultdict(set)
self.babies = defaultdict(set)
self.hatch_counters = dict()
self.gender_rates = dict()
item_baby_chains = set() # evolution chains with baby-trigger items
for pokemon, evolution_chain, parent, g1, g2, baby_item, hatch_counter, gender_rate in query:
self.hatch_counters[pokemon] = hatch_counter
self.gender_rates[pokemon] = gender_rate
if g1 in bad_groups:
unbreedable[pokemon] = evolution_chain
else:
groups = (g1, g2) if g2 else (g1, )
if len(self.egg_groups.get(evolution_chain, ())) <= len(groups):
self.egg_groups[evolution_chain] = groups
for group in groups:
self.babies[group].add(pokemon)
self.evolution_chains[pokemon] = evolution_chain
self.pokemon_by_evolution_chain[evolution_chain].add(pokemon)
if parent:
self.evolution_parents[pokemon] = parent
if baby_item:
item_baby_chains.add(evolution_chain)
self.unbreedable = frozenset(unbreedable)
self.evolutions = defaultdict(set)
self.evolution_moves = dict()
query = self.session.query(
tables.PokemonEvolution.evolved_pokemon_id,
tables.EvolutionTrigger.identifier,
tables.PokemonEvolution.known_move_id,
tables.PokemonEvolution.minimum_level,
)
query = query.join(tables.PokemonEvolution.trigger)
for child, trigger, move, level in query:
self.evolutions[self.evolution_parents[child]].add(
(trigger, move, level, child))
if move:
self.evolution_moves[self.evolution_chains[child]] = move
if self.debug:
print 'Loaded %s pokemon: %s evo; %s families: %s breedable' % (
len(self.evolution_chains),
len(self.pokemon_by_evolution_chain),
len(self.egg_groups),
len(self.evolutions),
)
print 'Evolution moves: %s' % self.evolution_moves
# Chains with unbreedable babies
for baby, evolution_chain in unbreedable.items():
if baby not in self.evolution_parents:
groups = self.egg_groups[evolution_chain]
for group in groups:
self.babies[group].add(baby)
# Chains with item-triggered alternate babies
for item_baby_chain in item_baby_chains:
for item_baby in self.pokemon_by_evolution_chain[item_baby_chain]:
if item_baby not in self.evolution_parents:
for regular_baby in self.evolutions[item_baby]:
for group in self.egg_groups[item_baby_chain]:
self.babies[group].add(pokemon)
def load_moves(self):
"""Load move_generations"""
query = self.session.query(
tables.Move.id,
tables.Move.generation_id,
)
self.move_generations = dict(query)
if self.debug:
print 'Loaded %s moves' % len(self.move_generations)
def construct_breed_graph(self):
"""Fills breeds_required
breeds_required[egg_group][moveset] = minimum number of breeds needed
from a pokemon in this group with this moveset to the goal pokemon
with the goal moveset.
The score cannot get lower by learning new moves, only by breeding.
If missing, breeding or raising the pokemon won't do any good.
Exceptions:
For pokemon in the target family, breeds_required doesn't apply.
For the empty moveset just check if any moveset is worthwhile (i.e.
bool(breeds_required[egg_group])).
"""
# Part I. Determining what moves can be passed/learned
# eg1_movepools[egg_group_id] = set of moves passable by pkmn in that group
eg1_movepools = defaultdict(set)
# eg2_movepools[b_g_id1, b_g_id2] = ditto for pkmn in *both* groups
eg2_movepools = defaultdict(set)
# non_egg_pools = as eg1_movepools but for *learnable* moves
learn_pools = defaultdict(set)
goal_egg_groups = self.egg_groups[self.goal_evolution_chain]
all_groups = set()
for family, groups in self.egg_groups.iteritems():
if not groups:
continue
if family == self.goal_evolution_chain:
continue
elif family in self.smeargle_families:
pool = self.goal_moves
else:
pool = self.movepools[family]
pool = set(pool) & self.goal_moves
learnpool = self.learnpools[family] & pool
for group in groups:
eg1_movepools[group].update(pool)
learn_pools[group].update(learnpool)
all_groups.add(group)
if len(groups) >= 2:
eg2_movepools[groups].update(pool)
if self.debug:
print 'Egg group summary:'
for group in sorted(all_groups):
print "%2s can pass: %s" % (group, sorted(eg1_movepools[group]))
if learn_pools[group] != eg1_movepools[group]:
print " but learn: %s" % sorted(learn_pools[group])
for g2 in sorted(all_groups):
for g1 in sorted(all_groups):
if eg2_movepools[g1, g2]:
print " %2s/%2s pass: %s" % (g1, g2, sorted(eg2_movepools[g1, g2]))
print 'Goal groups:', goal_egg_groups
# Part II. Determining which moves are worthwhile to pass
# We want *all* paths, not just shortest ones, so use DFS.
breeds_required = defaultdict(dict)
def handle(group, moves, path):
"""
group: the group of the parent
moves: moves the parent should pass down
path: previously visited groups - to prevent cycles
"""
if not moves:
# No more moves needed to pass down: success!
return True
if breeds_required[group].get(moves, 999) <= len(path):
# Already done
return True
success = False
# Breed some more
path = path + (group, )
for new_group in all_groups.difference(path):
new_groups = tuple(sorted([group, new_group]))
# Can we pass down all the requested moves?
if moves.issubset(eg1_movepools[new_group]):
# Learn some of the moves: they don't have to be passed to us
for learned in powerset(moves & learn_pools[new_group]):
new_moves = moves.difference(learned)
local_success = handle(new_group, new_moves, path)
# If this chain eventually ended up being successful,
# it means that it is useful to pass this moveset
# to this group.
if local_success:
breeds_required[group][moves] = min(breeds_required[group].get(moves, 999), len(path) - 1)
success = True
return success
for group in goal_egg_groups:
handle(group, self.goal_moves, ())
for moves in powerset(self.goal_moves.difference(self.egg_moves)):
if moves:
breeds_required[group][frozenset(moves) | self.egg_moves] = 1
self.breeds_required = breeds_required
if self.debug:
for group, movesetlist in breeds_required.items():
print 'From egg group', group
for moveset, cost in movesetlist.items():
print " %s breeds with %s" % (cost, sorted(moveset))
def find_duplicate_versions(self):
"""Fill `duplicate_versions`
duplicate_versions[pokemon][version_group] = set of version groups that
are identical as far as the pokemon learning those moves is
concerned, and are in the same generation.
Thus, trading between them is unnecessary.
"""
self.duplicate_versions = dict()
counter = 0
for pokemon, vg_moves in self.pokemon_moves.items():
dupes = self.duplicate_versions[pokemon] = dict()
last = None
last_moves = None
last_gen = None
for version_group, moves in vg_moves.items():
gen = self.generation_id_by_version_group[version_group]
if gen == last_gen and moves == last_moves:
last.add(version_group)
dupes[version_group] = last
counter += 1
else:
last = set([version_group])
dupes[version_group] = last
last_moves = moves
last_gen = gen
if self.debug:
print 'Deduplicated %s version groups' % counter
def astar_debug_notify(self, cost, node, setsize, heapsize):
counter = self._astar_debug_notify_counter
if counter % 100 == 0:
print 'A* iteration %s, cost %s; remaining: %s (%s) \r' % (
counter, cost, setsize, heapsize),
self._astar_debug_notify_counter += 1
def __iter__(self):
return self.generator
def get_by_id(self, table, id):
key = table, 'id', id
try:
return self.output_objects[key]
except KeyError:
o = self.output_objects[key] = util.get(self.session, table, id=id)
return o
def get_by_identifier(self, table, ident):
key = table, 'identifier', ident
try:
return self.output_objects[key]
except KeyError:
o = self.output_objects[key] = util.get(self.session,
table, identifier=ident)
return o
def get_list(self, table, ids):
key = table, 'list', ids
try:
return self.output_objects[key]
except KeyError:
o = self.output_objects[key] = sorted(
(util.get(self.session, table, id=id) for id in ids),
key=lambda x: x.identifier)
return o
###
### Costs
###
default_costs = {
# Costs for learning a move in verious ways
'level-up': 20, # The normal way
'machine': 40, # Machines are slightly inconvenient.
'machine-once': 2000, # before gen. 5, TMs only work once. Avoid.
'tutor': 60, # Tutors are slightly more inconvenient than TMs can't carry them around
'tutor-once': 2100, # gen III: tutors only work once (well except Emerald frontier ones)
# For technical reasons, 'sketch' is also used for learning Sketch and
# evolution-inducing moves by normal means, if they aren't included in the
# target moveset.
# So the actual cost of a sketched move will be double this number.
'sketch': 5, # Cheap. Exclude Smeargle if you think it's too cheap.
# Gimmick moves we need to use this method to learn the move anyway,
# so make a big-ish dent in the score if missing
'stadium-surfing-pikachu': 100,
'light-ball-egg': 100, # …
# Ugh... I don't know?
'colosseum-purification': 100,
'xd-shadow': 100,
'xd-purification': 100,
'form-change': 100,
# Other actions.
# Breeding should cost more than 3 times than a lv-up/machine/tutor move.
'evolution': 100, # We have to do this anyway, usually.
'evolution-delayed': 50, # *in addition* to evolution. Who wants to mash B on every level.
'breed': 400, # Breeding's a pain.
'trade': 200, # Trading's a pain, but not as much as breeding.
'transfer': 200, # *in addition* to trade. For one-way cross-generation transfers
'forget': 300, # Deleting a move. (Not needed unless deleting an evolution move.)
'relearn': 150, # Also a pain, though not as big as breeding.
'per-level': 1, # Prefer less grinding. This is for all lv-ups but the final “grow”
# Breeding for moves the target pokemon leans easily is kind of stupid.
# (Though not *very* stupid, and since the program considers evolution
# chains as a group, the penalty should be much smaller than normal move cost.)
'egg': 3, # General cost of breeding a move
'per-hatch-counter': 1, # penalty for 1 initial hatch counter point (these range from 5 to 120)
# Penalty for *not* breeding a required egg move; this makes parents
# with more required moves gain a big advantage over the competition
'breed-penalty': 100,
}
###
### Result objects
###
class Facade(object):
@property
def pokemon(self):
return self.search.get_by_id(tables.Pokemon, self.pokemon_)
@property
def version_group(self):
return self.search.get_by_id(tables.VersionGroup, self.version_group_)
@property
def versions(self):
return self.version_group.versions
@property
def move(self):
return self.search.get_by_id(tables.Move, self.move_)
@property
def moves(self):
return self.search.get_list(tables.Move, self.moves_)
@property
def move_method(self):
return self.search.get_by_identifier(tables.PokemonMoveMethod,
self.move_method_)
@property
def evolution_trigger(self):
return self.search.get_by_identifier(tables.EvolutionTrigger,
self.evolution_trigger_)
###
### Search space transitions
###
class Action(Facade):
pass
class StartAction(Action, namedtuple('StartAcion', 'search pokemon_ version_group_')):
keyword = 'start'
def __str__(self):
vers = ' or '.join(v.name for v in self.versions)
return "Start with {0.pokemon.name} in {1}".format(self, vers)
class LearnAction(Action, namedtuple('LearnAction', 'search move_ move_method_')):
keyword = 'start'
def __str__(self):
return "Learn {0.move.name} by {0.move_method.name}".format(self)
class RelearnAction(Action, namedtuple('RelearnAction', 'search move_')):
keyword = 'start'
def __str__(self):
return "Relearn {0.move.name}".format(self)
class ForgetAction(Action, namedtuple('ForgetAction', 'search move_')):
keyword = 'forget'
def __str__(self):
return "Forget {0.move.name}".format(self)
class TradeAction(Action, namedtuple('TradeAction', 'search version_group_')):
keyword = 'trade'
def __str__(self):
vers = ' or '.join(v.name for v in self.versions)
return "Trade to {1}".format(self, vers)
class EvolutionAction(Action, namedtuple('EvolutionAction', 'search pokemon_ evolution_trigger_')):
keyword = 'evolution'
def __str__(self):
return "Evolve to {0.pokemon.name} by {0.evolution_trigger.name}".format(self)
class GrowAction(Action, namedtuple('GrowAction', 'search level')):
keyword = 'grow'
def __str__(self):
return "Grow to level {0.level}".format(self)
class BreedAction(Action, namedtuple('BreedAction', 'search pokemon_ moves_')):
keyword = 'grow'
def __str__(self):
mvs = ', '.join(m.name for m in self.moves)
return "Breed {0.pokemon.name} with {1}".format(self, mvs)
###
### Search space nodes
###
class InitialNode(Node, namedtuple('InitialNode', 'search')):
def expand(self):
search = self.search
for pokemon, version_groups in search.pokemon_moves.items():
egg_groups = search.egg_groups[search.evolution_chains[pokemon]]
if any(search.breeds_required[group] for group in egg_groups):
for version_group in version_groups:
action = StartAction(search, pokemon, version_group)
node = PokemonNode(
search=search,
pokemon_=pokemon,
level=0,
version_group_=version_group,
moves_=frozenset(),
new_level=False,
)
yield 0, action, node
class PokemonNode(Node, Facade, namedtuple('PokemonNode',
'pokemon_ level version_group_ new_level moves_ search')):
def __str__(self):
return "lv.{level:3}{s} {self.pokemon.identifier:<10.10} in {version_group_:3} with {moves}".format(
s='*' if self.new_level else ' ',
moves=','.join(sorted(move.identifier for move in self.moves)) or '---',
self=self,
**self._asdict())
def expand(self):
if not self.moves_:
# Learn something first
# (other expand_* may rely on there being a move)
return self.expand_learn()
elif len(self.moves_) < 4:
expand_moves = self.expand_learn
else:
expand_moves = self.expand_forget
return itertools.chain(
expand_moves(),
self.expand_trade(),
self.expand_grow(),
self.expand_evolutions(),
self.expand_breed(),
)
def expand_learn(self):
search = self.search
moves = search.pokemon_moves[self.pokemon_][self.version_group_]
for move, methods in moves.items():
if move in self.moves_:
continue
for method, levels_costs in methods.items():
if method == 'level-up':
for level, cost in levels_costs:
level_difference = level - self.level
if level_difference > 0 or (
level_difference == 0 and self.new_level):
cost += level_difference * search.costs['per-level']
yield self._learn(move, method, cost,
level=level, new_level=True)
else:
yield self._learn(move, 'relearn',
search.costs['relearn'],
action=RelearnAction(self.search, move),
new_level=False)
elif method in 'machine tutor'.split():
for level, cost in levels_costs:
yield self._learn(move, method, cost, new_level=False)
elif method == 'egg':
# ignored here
pass
elif method == 'light-ball-egg':
if self.level == 0 and self.new_level:
for level, cost in levels_costs:
yield self._learn(move, method, cost)
elif method == 'stadium-surfing-pikachu':
for level, cost in levels_costs:
yield self._learn(move, method, cost, new_level=False)
elif method == 'form-change':
# XXX: Form changes
pass
else:
raise ValueError('Unknown move method %s' % method)
def _learn(self, move, method, cost, action=None, **kwargs):
kwargs['moves_'] = self.moves_.union([move])
if action is None:
action = LearnAction(self.search, move, method)
return cost, action, self._replace(
**kwargs)
def expand_forget(self):
cost = self.search.costs['forget']
for move in self.moves_:
yield cost, ForgetAction(self.search, move), self._replace(
moves_=self.moves_.difference([move]), new_level=False)
def expand_trade(self):
search = self.search
target_vgs = set(search.pokemon_moves[self.pokemon_])
target_vgs.add(search.goal_version_group)
target_vgs.discard(self.version_group_)
for version_group in target_vgs:
cost = search.trade_cost(self.version_group_, version_group,
*(search.move_generations[m] for m in self.moves_)
)
if cost is not None:
yield cost, TradeAction(search, version_group), self._replace(
version_group_=version_group, new_level=False)
def expand_grow(self):
search = self.search
if (self.pokemon_ == search.goal_pokemon and
self.version_group_ == search.goal_version_group and
self.moves_ == search.goal_moves and
self.level <= search.goal_level):
kwargs = self._asdict()
kwargs['level'] = search.goal_level
kwargs['new_level'] = True
yield 0, GrowAction(search, search.goal_level), GoalNode(**kwargs)
def expand_evolutions(self):
search = self.search
for trigger, move, level, child in search.evolutions[self.pokemon_]:
kwargs = dict(pokemon_=child)
cost = search.costs['evolution']
if move and move not in self.moves_:
continue
if level:
if level > self.level:
kwargs['level'] = level
kwargs['new_level'] = True
elif level == self.level and self.new_level:
pass
else:
cost += search.costs['evolution-delayed']
if trigger in 'level-up use-item'.split():
pass
elif trigger == 'trade':
kwargs['new_level'] = False
elif trigger == 'shed':
# XXX: Shedinja!!
pass
else:
raise ValueError('Unknown evolution trigger %s' % trigger)
yield cost, EvolutionAction(search, child, trigger), self._replace(
**kwargs)
def expand_breed(self):
search = self.search
if self.pokemon_ in search.unbreedable:
return
evo_chain = search.evolution_chains[self.pokemon_]
egg_groups = search.egg_groups[evo_chain]
breeds_required = search.breeds_required
moves = self.moves_
for group in egg_groups:
if moves in breeds_required[group] or evo_chain == search.goal_evolution_chain:
cost = search.costs['breed']
cost += search.costs['egg'] * len(moves)
cost += search.costs['breed-penalty'] * len(search.egg_moves - moves)
yield cost, None, BreedNode(search=self.search, dummy='b', group_=group,
version_group_=self.version_group_, moves_=self.moves_)
class BreedNode(Node, namedtuple('BreedNode',
'group_ version_group_ dummy search moves_')):
"""Breed node
This serves to prevent duplicate breeds, by storing only the needed info
in the namedtuple.
Also, the base breed cost was already paid, so the breeding tends to happen
later in the algorithm.
"""
def expand(self):
search = self.search
moves = self.moves_
vg = self.version_group_
gen = search.generation_id_by_version_group[vg]
hatch_level = 5 if (gen < 4) else 1
for baby in search.babies[self.group_]:
gender_rate = search.gender_rates[baby]
baby_chain = search.evolution_chains[baby]
if moves.issubset(search.movepools[baby_chain]):
cost = search.costs['per-hatch-counter'] * search.hatch_counters[baby]
yield 0, BreedAction(self.search, baby, moves), PokemonNode(
search=self.search, pokemon_=baby, level=hatch_level,
version_group_=vg, moves_=moves, new_level=True)
return
yield
@property
def pokemon(self):
return None
def estimate(self, g):
return 0
class GoalNode(PokemonNode):
def expand(self):
return ()
def is_goal(self, g):
return True
###
### CLI interface
###
def main(argv):
parser = argparse.ArgumentParser(description=
'Find out if the specified moveset is valid, and provide a suggestion '
'on how to obtain it.')
parser.add_argument('pokemon', metavar='POKEMON', type=unicode,
help='Pokemon to check the moveset for')
parser.add_argument('move', metavar='MOVE', type=unicode, nargs='*',
help='Moves in the moveset')
parser.add_argument('-l', '--level', metavar='LV', type=int, default=100,
help='Level of the pokemon')
parser.add_argument('-v', '--version', metavar='VER', type=unicode,
default='black',
help='Version to search in.')
parser.add_argument('-V', '--exclude-version', metavar='VER', type=unicode,
action='append', default=[],
help='Versions to exclude (along with their '
'counterparts, if any, e.g. `black` will also exclude White).')
parser.add_argument('-P', '--exclude-pokemon', metavar='PKM', type=unicode,
action='append', default=[],
help='Pokemon to exclude (along with their families, e.g. `pichu` '
'will also exclude Pikachu and Raichu).')
parser.add_argument('-d', '--debug', action='append_const', const=1,
default=[],
help='Output timing and debugging information (can be specified more '
'than once).')
args = parser.parse_args(argv)
args.debug = len(args.debug)
if args.debug:
print 'Connecting'
session = connect(engine_args={'echo': args.debug > 1})
if args.debug:
print 'Parsing arguments'
def _get_list(table, idents, name):
result = []
for ident in idents:
try:
result.append(util.get(session, table, identifier=ident))
except NoResultFound:
print>>sys.stderr, ('%s %s not found. Please use '
'the identifier.' % (name, ident))
return False
return result
pokemon = _get_list(tables.Pokemon, [args.pokemon], 'Pokemon')[0]
moves = _get_list(tables.Move, args.move, 'Move')
version = _get_list(tables.Version, [args.version], 'Version')[0]
excl_versions = _get_list(tables.Version, args.exclude_version, 'Version')
excl_pokemon = _get_list(tables.Pokemon, args.exclude_pokemon, 'Pokemon')
if args.debug:
print 'Starting search'
no_results = True
try:
search = MovesetSearch(session, pokemon, version, moves, args.level,
exclude_versions=excl_versions, exclude_pokemon=excl_pokemon,
debug=args.debug)
except IllegalMoveCombination, e:
print 'Error:', e
else:
if args.debug:
print 'Setup done'
template = "{cost:4} {action:50.50} {pokemon:10}{level:>3}{nl:1}{versions:2} {moves}"
for result in search:
print '-' * 79
if no_results:
if search.output_objects:
print '**warning: search looked up output objects**'
no_results = False
print template.format(cost='Cost', action='Action', pokemon='Pokemon',
level='Lv.', nl='V', versions='er',
moves=''.join(m.name[0].lower() for m in moves))
for cost, action, node in reversed(list(result)):
if action:
print template.format(
cost=cost,
action=action,
pokemon=node.pokemon.name,
nl='.' if node.new_level else ' ',
level=node.level,
versions=''.join(v.name[0] for v in node.versions),
moves=''.join('.' if m in node.moves else ' ' for m in moves) +
''.join(m.name[0].lower() for m in node.moves if m not in moves),
)
if args.debug:
print
print 'Done'
return (not no_results)
if __name__ == '__main__':
sys.exit(not main(sys.argv[1:]))