veekun_pokedex/pokedex/extract/oras.py

"""Dumps data from Omega Ruby and Alpha Sapphire.

Filesystem reference: http://www.projectpokemon.org/wiki/ORAS_File_System
"""
import argparse
from collections import OrderedDict
from contextlib import contextmanager
import itertools
import math
from pathlib import Path
import shutil
import struct

from construct import Array, BitField, Bitwise, Magic, OptionalGreedyRange, Padding, Pointer, Struct, SLInt8, SLInt16, ULInt8, ULInt16, ULInt32
import yaml

from .lib.garc import GARCFile, decrypt_xy_text
from .lib.text import merge_japanese_texts


# TODO fix some hardcoding in here
# TODO finish converting garc parsing to use construct, if possible, i think (i would not miss substream)
# way way more sprite work in here...


CANON_LANGUAGES = ('ja', 'en', 'fr', 'it', 'de', 'es', 'ko')
ORAS_SCRIPT_FILES = {
    'ja-kana': 'rom/a/0/7/1',
    'ja-kanji': 'rom/a/0/7/2',
    'en': 'rom/a/0/7/3',
    'fr': 'rom/a/0/7/4',
    'it': 'rom/a/0/7/5',
    'de': 'rom/a/0/7/6',
    'es': 'rom/a/0/7/7',
    'ko': 'rom/a/0/7/8',
}
ORAS_SCRIPT_ENTRIES = {
    'form-names': 5,
    # TODO these might be backwards, i'm just guessing
    'species-flavor-alpha-sapphire': 6,
    'species-flavor-omega-ruby': 7,
    'move-contest-flavor': 13,
    'move-names': 14,
    # Note: table 15 is also a list of move names, but with a few at the end
    # missing?  XY leftovers?
    'move-flavor': 16,
    'type-names': 18,
    'ability-flavor': 36,
    'ability-names': 37,
    'nature-names': 51,
    'species-names': 98,
}
# The first element in each list is the name of the BASE form -- if it's not
# None, the base form will be saved under two filenames
ORAS_EXTRA_SPRITE_NAMES = {
    # Cosplay Pikachu
    25: (None, 'rockstar', 'belle', 'popstar', 'phd', 'libre', 'cosplay'),
    # Unown
    201: tuple('abcdefghijklmnopqrstuvwxyz') + ('exclamation', 'question'),
    # Castform
    351: (None, 'sunny', 'rainy', 'snowy'),
    # Kyogre and Groudon
    382: (None, 'primal',),
    383: (None, 'primal',),
    # Deoxys
    386: ('normal', 'attack', 'defense', 'speed'),
    # Burmy and Wormadam
    412: ('plant', 'sandy', 'trash'),
    413: ('plant', 'sandy', 'trash'),
    # Cherrim
    421: ('overcast', 'sunshine',),
    # Shellos and Gastrodon
    422: ('west', 'east',),
    423: ('west', 'east',),
    # Rotom
    479: (None, 'heat', 'wash', 'frost', 'fan', 'mow'),
    # Giratina
    487: ('altered', 'origin',),
    # Shaymin
    492: ('land', 'sky',),
    # Arceus
    493: (
        'normal', 'fighting', 'flying', 'poison', 'ground', 'rock', 'bug',
        'ghost', 'steel', 'fire', 'water', 'grass', 'electric', 'psychic',
        'ice', 'dragon', 'dark', 'fairy',
    ),
    # Basculin
    550: ('red-striped', 'blue-striped',),
    # Darmanitan
    555: ('standard', 'zen',),
    # Deerling and Sawsbuck
    585: ('sprint', 'summer', 'autumn', 'winter'),
    586: ('sprint', 'summer', 'autumn', 'winter'),
    # Tornadus, Thundurus, and Landorus
    641: ('incarnate', 'therian'),
    642: ('incarnate', 'therian'),
    645: ('incarnate', 'therian'),
    # Kyurem
    646: (None, 'white', 'black'),
    # Keldeo
    647: ('ordinary', 'resolute'),
    # Meloetta
    648: ('aria', 'pirouette'),
    # Genesect
    649: (None, 'douse', 'shock', 'burn', 'chill'),
    # Vivillon
    666: (
        'icy-snow', 'polar', 'tundra', 'continental', 'garden', 'elegant',
        'meadow', 'modern', 'marine', 'archipelago', 'high-plains',
        'sandstorm', 'river', 'monsoon', 'savanna', 'sun', 'ocean', 'jungle',
        'fancy', 'poke-ball',
    ),
    # Flabébé/Floette/Florges
    669: ('red', 'yellow', 'orange', 'blue', 'white'),
    670: ('red', 'yellow', 'orange', 'blue', 'white', 'eternal'),
    671: ('red', 'yellow', 'orange', 'blue', 'white'),
    # Furfrou
    676: (
        'natural', 'heart', 'star', 'diamond', 'debutante', 'matron', 'dandy',
        'la-reine', 'kabuki', 'pharaoh',
    ),
    # Meowstic
    #678: [male, female]
    # Aegislash
    681: ('shield', 'blade'),
    # Pumpkaboo/Gourgeist
    710: ('average', 'small', 'large', 'super'),
    711: ('average', 'small', 'large', 'super'),
    # Xerneas
    716: ('neutral', 'active'),
    # Hoopa
    720: ('confined', 'unbound'),
}


pokemon_struct = Struct(
    'pokemon',
    ULInt8('stat_hp'),
    ULInt8('stat_atk'),
    ULInt8('stat_def'),
    ULInt8('stat_speed'),
    ULInt8('stat_spatk'),
    ULInt8('stat_spdef'),
    ULInt8('type1'),
    ULInt8('type2'),
    ULInt8('catch_rate'),
    ULInt8('stage'),
    ULInt16('effort'),
    ULInt16('held_item1'),
    ULInt16('held_item2'),
    ULInt16('held_item3'),  # dark grass from bw, unused in oras?
    ULInt8('gender_rate'),
    ULInt8('steps_to_hatch'),
    ULInt8('base_happiness'),
    ULInt8('exp_curve'),
    ULInt8('egg_group1'),
    ULInt8('egg_group2'),
    ULInt8('ability1'),
    ULInt8('ability2'),
    ULInt8('ability_dream'),
    ULInt8('safari_escape'),
    ULInt16('form_species_start'),
    ULInt16('form_sprite_start'),
    ULInt8('form_count'),
    ULInt8('color'),
    ULInt16('base_exp'),
    ULInt16('height'),
    ULInt16('weight'),
    Bitwise(
        BitField('machines', 14 * 8, swapped=True),
    ),
    Padding(2),
    ULInt32('tutors'),
    ULInt16('mystery1'),
    ULInt16('mystery2'),
    ULInt32('bp_tutors1'),
    ULInt32('bp_tutors2'),
    ULInt32('bp_tutors3'),
    ULInt32('bp_tutors4'),
)

pokemon_mega_evolutions_struct = Array(
    3,
    Struct(
        'pokemon_mega_evolutions',
        ULInt16('number'),
        ULInt16('mode'),
        ULInt16('mega_stone_itemid'),
        Padding(2),
    )
)

egg_moves_struct = Struct(
    'egg_moves',
    ULInt16('count'),
    Array(
        lambda ctx: ctx.count,
        ULInt16('moveids'),
    ),
)

level_up_moves_struct = OptionalGreedyRange(
    Struct(
        'level_up_pair',
        SLInt16('moveid'),
        SLInt16('level'),
    ),
)

move_struct = Struct(
    'move',
    ULInt8('type'),
    ULInt8('category'),
    ULInt8('damage_class'),
    ULInt8('power'),
    ULInt8('accuracy'),
    ULInt8('pp'),
    SLInt8('priority'),
    ULInt8('min_max_hits'),
    SLInt16('caused_effect'),
    ULInt8('effect_chance'),
    ULInt8('status'),
    ULInt8('min_turns'),
    ULInt8('max_turns'),
    ULInt8('crit_rate'),
    ULInt8('flinch_chance'),
    ULInt16('effect'),
    SLInt8('recoil'),
    ULInt8('healing'),
    ULInt8('range'),            # ok
    Bitwise(
        BitField('stat_change', 24),
    ),
    Bitwise(
        BitField('stat_amount', 24),
    ),
    Bitwise(
        BitField('stat_chance', 24),
    ),
    ULInt8('padding0'),         # ok
    ULInt8('padding1'),         # ok
    ULInt16('flags'),
    ULInt8('padding2'),         # ok
    ULInt8('extra'),
)
move_container_struct = Struct(
    'move_container',
    Magic(b'WD'),  # waza...  descriptions?
    ULInt16('record_ct'),
    Array(
        lambda ctx: ctx.record_ct,
        Struct(
            'records',
            ULInt32('offset'),
            Pointer(lambda ctx: ctx.offset, move_struct),
        ),
    ),
)

pokemon_sprite_struct = Struct(
    'pokemon_sprite_config',
    ULInt16('index'),
    ULInt16('female_index'),
    ULInt32('form_index_offset'),
    ULInt32('right_index_offset'),
    ULInt16('form_count'),
    ULInt16('right_count'),
)

# There are 63 tutor move bits in use, but only 60 move tutors -- the moves
# appear to be largely inherited from B2W2 but these are just not exposed in
# ORAS
ORAS_UNUSED_MOVE_TUTORS = {'dark-pulse', 'roost', 'sleep-talk'}
# Unsure where this is in the binary
ORAS_NORMAL_MOVE_TUTORS = (
    'grass-pledge',
    'fire-pledge',
    'water-pledge',
    'frenzy-plant',
    'blast-burn',
    'hydro-cannon',
    'draco-meteor',
    'dragon-ascent',
)


@contextmanager
def read_garc(path):
    with path.open('rb') as f:
        yield GARCFile(f)


# XXX christ lol.  taken from SO.  fodder for camel maybe
def represent_ordereddict(dumper, data):
    value = []

    for item_key, item_value in data.items():
        node_key = dumper.represent_data(item_key)
        node_value = dumper.represent_data(item_value)

        value.append((node_key, node_value))

    return yaml.nodes.MappingNode(u'tag:yaml.org,2002:map', value)
yaml.add_representer(OrderedDict, represent_ordereddict)


def represent_tuple(dumper, data):
    return yaml.nodes.SequenceNode(
        u'tag:yaml.org,2002:seq',
        [dumper.represent_data(item) for item in data],
        flow_style=True,
    )
yaml.add_representer(tuple, represent_tuple)


def dump_to_yaml(data, f):
    # TODO gonna need a better way to handle flow style
    yaml.dump(
        data, f,
        default_flow_style=False,
        allow_unicode=True,
    )


def extract_data(root, out):
    # TODO big conceptual question for the yaml thing: how do we decide how the
    # identifiers work in the per-version data?  the "global" identifiers are
    # in theory based on the names from the latest version, and the game dump
    # scripts shouldn't have to care about what the latest version is
    # 1. make the canon data not be keyed by identifier (makes it hard to
    # follow what's going on in flavor text files etc, and unclear how to match
    # up items across versions)
    # 2. make each version's data keyed by its own identifiers (makes it hard
    # to align them all when loading everything, and unclear how to match up
    # items whose names change across versions)
    # 3. hardcode a mapping of version+identifier pairs to their current
    # identifiers, when they changed, which is a little ugly but also solves
    # all the match-up problems and is what we'd basically have to do anyway

    # -------------------------------------------------------------------------
    # Names and flavor text
    texts = {}
    for lang, fn in ORAS_SCRIPT_FILES.items():
        texts[lang] = {}
        with read_garc(root / fn) as garc:
            for entryname, entryid in ORAS_SCRIPT_ENTRIES.items():
                entry = garc[entryid][0]
                texts[lang][entryname] = decrypt_xy_text(entry.read())

    # Japanese text is special!  It's written in both kanji and kana, and we
    # want to combine them
    texts['ja'] = {}
    for entryname in ORAS_SCRIPT_ENTRIES:
        kanjis = texts['ja-kanji'][entryname]
        kanas = texts['ja-kana'][entryname]
        # But not if they're names of things.
        # (TODO this might not be true in the case of, say, towns?  in which
        # case, what do we do?  we want to ultimately put these in urls and
        # whatnot, right, but we don't want furigana there  :S  do we need a
        # separate "identifier" field /per language/?)
        if entryname.endswith('names'):
            assert kanjis == kanas
            texts['ja'][entryname] = kanjis
        else:
            assert len(kanas) == len(kanjis)
            texts['ja'][entryname] = [
                merge_japanese_texts(kanji, kana)
                for (kanji, kana) in zip(kanjis, kanas)
            ]
    del texts['ja-kanji']
    del texts['ja-kana']

    identifiers = {}
    identifiers['species'] = [
        # TODO better identifier creation, to be determined later, but surely
        # want to lose . and '
        # TODO handling forms here is awkward since the form names are
        # contained in the personal struct
        ((species_name or '') + '-' + form_name).lower().replace(' ', '-')
        for (species_name, form_name) in itertools.zip_longest(
            texts['en']['species-names'],
            texts['en']['form-names'],
        )
    ]
    identifiers['move'] = [
        # TODO better identifier creation, to be determined later, but surely
        # want to lose . and '
        name.lower().replace(' ', '-')
        for name in texts['en']['move-names']
    ]

    textdir = out / 'script'
    if not textdir.exists():
        textdir.mkdir()
    for lang in CANON_LANGUAGES:
        with (textdir / (lang + '.yaml')).open('w') as f:
            # TODO this should use identifiers, not be lists
            # TODO need to skip slot 0 which is junk
            dump_to_yaml(texts[lang], f)

    # -------------------------------------------------------------------------
    # Scrape some useful bits from the binary
    with (root / 'exe/code.bin').open('rb') as f:
        # Tutored moves
        tutor_moves = dict(tutors=ORAS_NORMAL_MOVE_TUTORS)
        f.seek(0x004960f8)
        for n in range(1, 5):
            key = "bp_tutors{}".format(n)
            moves = tutor_moves[key] = []
            while True:
                moveid, = struct.unpack('<H', f.read(2))
                if moveid >= len(identifiers['move']):
                    break
                moves.append(identifiers['move'][moveid])

        # TMs
        machines = []
        f.seek(0x004a67ee)
        machineids = struct.unpack('<107H', f.read(2 * 107))
        # Order appears to be based on some gen 4 legacy: TMs 1 through 92, HMs
        # 1 through 6, then the other eight TMs and the last HM.  But the bits
        # in the Pokémon structs are in the expected order of 1 through 100, 1
        # through 7
        machines = [
            identifiers['move'][moveid]
            for moveid in
                machineids[0:92] +
                machineids[98:106] +
                machineids[92:98] +
                machineids[106:]
        ]


    # -------------------------------------------------------------------------
    # Pokémon structs
    pokemon_data = []
    with read_garc(root / 'rom/a/1/9/5') as garc:
        personals = [subfile[0].read() for subfile in garc]
    _pokemon_forms = {}  # "real" species id => (base species id, form name id)
    _next_name_form_id = 723
    for i, personal in enumerate(personals[:-1]):
        record = pokemon_struct.parse(personal)
        # TODO transform to an OD somehow probably
        pokemon_data.append(record)
        #print("{:3d} {:15s} {} {:5d} {:5d}".format(
        #    i,
        #    identifiers['species'][baseid],
        #    ('0'*16 + bin(record.mystery1)[2:])[-16:],
        #    record.mystery2,
        #    record.stage,
        #))
        # TODO some pokemon have sprite starts but no species start, because their sprites vary obv
        if record.form_count > 1:
            # The form names appear to be all just jammed at the end in order,
            # completely unrelated to either of the "start" offsets here
            for offset in range(record.form_count - 1):
                #form_name = texts['en']['form-names'][_next_name_form_id]

                if record.form_species_start:
                    # TODO still no idea how "intangible" forms are being
                    # handled in the new schema
                    _pokemon_forms[record.form_species_start + offset] = i, _next_name_form_id

                _next_name_form_id += 1

        if record.form_species_start:
            for offset in range(record.form_count - 1):
                # TODO grab the form names argh
                identifiers['species'][record.form_species_start + offset] = identifiers['species'][i]

    #for i in range(723, 825 + 1):
    #    base_species_id, form_name_id = _pokemon_forms[i]
    #    species_name = texts['en']['species-names'][base_species_id]
    #    form_name = texts['en']['form-names'][form_name_id]
    #    print(i, species_name, '/', form_name)

    # -------------------------------------------------------------------------
    # Move stats
    movesets = OrderedDict()
    with read_garc(root / 'rom/a/1/8/9') as garc:
        # Only one subfile
        data = garc[0][0].read()
        container = move_container_struct.parse(data)
        for n, record in enumerate(container.records):
            m = record.move
            # TODO with the release of oras all moves have contest types and effects again!  where are they??
            #print("{:3d} {:20s} | {m.type:3d} {m.power:3d} {m.pp:2d} {m.accuracy:3d} / {m.priority:2d} {m.range:2d} {m.damage_class:1d} / {m.effect:3d} {m.caused_effect:3d} {m.effect_chance:3d}  --  {m.status:3d} {m.min_turns:3d} {m.max_turns:3d} {m.crit_rate:3d} {m.flinch_chance:3d} {m.recoil:4d} {m.healing:3d} / {m.stat_change:06x} {m.stat_amount:06x} {m.stat_chance:06x} / {m.padding0:3d} {m.padding1:3d} {m.flags:04x} {m.padding2:3d} {m.extra:3d}".format(
            #    n,
            #    identifiers['move'][n],
            #    m=record.move,
            #))

    # Egg moves
    with read_garc(root / 'rom/a/1/9/0') as garc:
        for i, subfile in enumerate(garc):
            ident = identifiers['species'][i]
            data = subfile[0].read()
            if not data:
                continue
            container = egg_moves_struct.parse(data)
            moveset = movesets.setdefault(ident, OrderedDict())
            eggset = moveset['egg'] = []
            for moveid in container.moveids:
                eggset.append(identifiers['move'][moveid])

    # Level-up moves
    with read_garc(root / 'rom/a/1/9/1') as garc:
        for i, subfile in enumerate(garc):
            ident = identifiers['species'][i]
            level_up_moves = subfile[0].read()
            moveset = movesets.setdefault(ident, OrderedDict())
            levelset = moveset['level'] = []
            lastlevel = None
            order = 1
            for pair in level_up_moves_struct.parse(level_up_moves):
                # End is indicated with -1, -1
                if pair.moveid <= 0:
                    break
                levelset.append((
                    pair.level,
                    identifiers['move'][pair.moveid],
                ))

                if pair.level == lastlevel:
                    order += 1
                else:
                    lastlevel = pair.level
                    order = 1

    # Evolution
    #with read_garc(root / 'rom/a/1/9/2') as garc:
    #    for subfile in garc:
    #        evolution = subfile[0].read()
    #        print(repr(evolution))
    # Mega evolution
    #with read_garc(root / 'rom/a/1/9/3') as garc:
    #    for subfile in garc:
    #        evolution = subfile[0].read()
    #        print(repr(evolution))
    # TODO what is a/1/9/4?  8 files of 404 bytes each
    # Baby Pokémon
    #with read_garc(root / 'rom/a/1/9/6') as garc:
    #    for subfile in garc:
    #        baby_pokemon = subfile[0].read()
    #        print(repr(baby_pokemon))
    # Item stats
    #with read_garc(root / 'rom/a/1/9/7') as garc:
    #    for subfile in garc:
    #        item_stats = subfile[0].read()
    #        print(repr(item_stats))

    # Tutor moves (from the personal structs)
    for i, datum in enumerate(pokemon_data):
        ident = identifiers['species'][i]
        moveset = movesets.setdefault(ident, OrderedDict())
        tutorset = moveset['tutor'] = []
        for key, tutors in tutor_moves.items():
            for bit, moveident in enumerate(tutors):
                if moveident in ORAS_UNUSED_MOVE_TUTORS:
                    continue
                if not datum[key] & (1 << bit):
                    continue
                tutorset.append(moveident)

        # TMs
        machineset = moveset['machine'] = []
        for bit, moveident in enumerate(machines):
            if not datum['machines'] & (1 << bit):
                continue
            machineset.append(moveident)

    with (out / 'movesets.yaml').open('w') as f:
        dump_to_yaml(movesets, f)


def extract_box_sprites(root, out):
    filenames = {}
    with (root / 'exe/code.bin').open('rb') as f:
        # Form configuration, used to put sprites in the right order
        # NOTE: in x/y the address is 0x0043ea98
        f.seek(0x0047d650)
        # TODO need to do a different thing for main sprites
        # TODO magic number
        for n in range(722):
            sprite = pokemon_sprite_struct.parse_stream(f)
            assert sprite.index not in filenames
            filenames[sprite.index] = "{}".format(n)
            if sprite.female_index != sprite.index:
                assert sprite.female_index not in filenames
                filenames[sprite.female_index] = "{}-female".format(n)
            # Note that these addresses are relative to RAM, and the binary is
            # loaded into RAM starting at 0x100000, so we need to subtract that
            # to get a file position
            pos = f.tell()
            form_indices = ()
            right_indices = ()

            if sprite.form_index_offset:
                f.seek(sprite.form_index_offset - 0x100000)
                form_indices = struct.unpack(
                    "<{}H".format(sprite.form_count),
                    f.read(2 * sprite.form_count),
                )
                for form, form_idx in enumerate(form_indices):
                    # Ignore the first form, since it's the default and thus
                    # covered by `index` already
                    if form == 0:
                        continue
                    if form_idx == sprite.index:
                        continue
                    assert form_idx not in filenames
                    filenames[form_idx] = "{}-form{}".format(n, form)

            if sprite.right_index_offset:
                f.seek(sprite.right_index_offset - 0x100000)
                right_indices = struct.unpack(
                    "<{}H".format(sprite.right_count),
                    f.read(2 * sprite.right_count),
                )
                if sprite.form_count:
                    assert sprite.right_count == sprite.form_count
                    for form, (form_idx, right_idx) in enumerate(zip(form_indices, right_indices)):
                        if form_idx == right_idx:
                            continue
                        if form != 0:
                            suffix = "form{}-right".format(form)
                        else:
                            suffix = 'right'
                        assert right_idx not in filenames
                        filenames[right_idx] = "{}-{}".format(n, suffix)
                else:
                    assert sprite.right_count == 2
                    assert right_indices[0] == right_indices[1]
                    if right_indices[0] != sprite.index:
                        assert right_indices[0] not in filenames
                        filenames[right_indices[0]] = "{}-right".format(n)

            f.seek(pos)

    pokemon_sprites_dir = out
    if not pokemon_sprites_dir.exists():
        pokemon_sprites_dir.mkdir()
    with read_garc(root / 'rom/a/0/9/1') as garc:
        from .lib.clim import decode_clim
        for i, subfile in enumerate(garc):
            if i == 0:
                # Dummy blank sprite, not interesting to us
                continue
            elif i in filenames:
                filename = filenames[i] + '.png'
            elif i == len(garc) - 1:
                # Very last one is egg
                filename = 'egg.png'
            else:
                # This is a duplicate Entei sprite that's not used
                assert i in (333,)
                continue

            data = subfile[0].read()
            width, height, color_depth, pixels = decode_clim(data)
            png_writer = png.Writer(
                width=width,
                height=height,
                alpha=True,
            )

            # this library is so fucking stupid
            # TODO strictly speaking we could just write out a paletted PNG directly
            # TODO add sBIT chunk indicating original bit depth
            with (pokemon_sprites_dir / filename).open('wb') as f:
                png_writer.write(f, (itertools.chain(*row) for row in pixels))


def extract_dex_sprites(root, out):
    # Some Pokémon have dex sprites for their forms, too, and they're all
    # clustered together, so we have to do a little work to fix the numbering.
    # Luckily the dex sprites are in the same order as the models
    # (unsurprising, as they're just model renders), which also tells us what
    # Pokémon have female forms.  The mega evolution map tells us which forms
    # are megas, and the rest are listed manually above as
    # ORAS_EXTRA_SPRITE_NAMES.

    # Grab the list of megas first
    num_megas = {}  # pokemonid => number of mega evos
    with read_garc(root / 'rom/a/1/9/3') as garc:
        for pokemonid, subfile in enumerate(garc):
            mega_evos = pokemon_mega_evolutions_struct.parse_stream(subfile[0])
            num_megas[pokemonid] = max(
                mega_evo.number for mega_evo in mega_evos)

    # Then construct filenames, using num_megas plus information from the model
    # index
    filenames = {}  # model/sprite number => filename, sans extension
    duplicate_filenames = []  # pairs of (copy from, copy to)
    with read_garc(root / 'rom/a/0/0/8') as garc:
        f = garc[0][0]
        # TODO magic number
        for n in range(721):
            # Unlike /virtually everywhere else/, Pokémon are zero-indexed here
            pokemonid = n + 1
            # Index of the first model (also zero-indexed), how many models the
            # Pokémon has, and some flags
            start, count, flags = struct.unpack('<HBB', f.read(4))
            model_num = start + 1
            # For some asinine reason, Xerneas is counted as two separate
            # Pokémon in the dex sprites but not the models, so we have to
            # shift everything after it back by 1
            if pokemonid == 716:
                count = 2
            elif pokemonid >= 717:
                model_num += 1

            filenames[model_num] = str(pokemonid)
            form_count = count - 1  # discount "base" form
            total_model_count = model_num + count - 1

            # Some "forms" have no real default, so we save the sprite both as
            # nnn.png and nnn-form.png, to guarantee that nnn.png always exists
            if pokemonid in ORAS_EXTRA_SPRITE_NAMES:
                if ORAS_EXTRA_SPRITE_NAMES[pokemonid][0] is not None:
                    duplicate_filenames.append((
                        str(pokemonid),
                        "{}-{}".format(
                            pokemonid, ORAS_EXTRA_SPRITE_NAMES[pokemonid][0]),
                    ))

            # Don't know what flag 1 is; everything has it.
            # Flag 2 means the first alternate form is a female variant.
            if flags & 2:
                assert form_count > 0
                form_count -= 1
                model_num += 1
                filenames[model_num] = "female/{}".format(pokemonid)
            # Flag 4 just means there are more forms?
            if flags & 4:
                assert form_count

            assert 1 or 1 == sum((
                form_count == 0,
                num_megas[pokemonid] > 0,
                pokemonid in ORAS_EXTRA_SPRITE_NAMES,
            ))
            if num_megas[pokemonid]:
                assert form_count == num_megas[pokemonid]
                assert pokemonid not in ORAS_EXTRA_SPRITE_NAMES
                model_num += 1
                if form_count == 1:
                    filenames[model_num] = "{}-mega".format(pokemonid)
                else:
                    # Charizard and Mewtwo
                    assert form_count == 2
                    filenames[model_num] = "{}-mega-x".format(pokemonid)
                    filenames[model_num + 1] = "{}-mega-y".format(pokemonid)
            elif pokemonid in ORAS_EXTRA_SPRITE_NAMES:
                for form_name in ORAS_EXTRA_SPRITE_NAMES[pokemonid][1:]:
                    model_num += 1
                    filenames[model_num] = "{}-{}".format(pokemonid, form_name)

    # And now, do the ripping
    # TODO This will save Unown A as 201.png, and not create a 201-a.png
    pokemon_sprites_dir = out
    with read_garc(root / 'rom/a/2/6/3') as garc:
        from .lib.clim import decode_clim
        for i, subfile in enumerate(garc):
            shiny_prefix = ''
            if i > total_model_count:
                i -= total_model_count
                shiny_prefix = 'shiny/'

            if i == 0:
                # Dummy blank sprite, not interesting to us
                continue
            elif 37 <= i <= 41:
                # Cosplay Pikachu's outfits -- the sprites are blank, so saving
                # these is not particularly useful
                continue
            elif i in filenames:
                filename = shiny_prefix + filenames[i] + '.png'
            else:
                raise ValueError(
                    "Can't find a filename for sprite number {}".format(i))

            data = subfile[0].read()
            width, height, color_depth, pixels = decode_clim(data)
            png_writer = png.Writer(
                width=width,
                height=height,
                alpha=True,
            )

            # this library is so fucking stupid
            # TODO strictly speaking we could just write out a paletted PNG directly
            # TODO add sBIT chunk indicating original bit depth
            path = pokemon_sprites_dir / filename
            parent = path.parent
            if not parent.exists():
                parent.mkdir(parents=False)

            with path.open('wb') as f:
                png_writer.write(f, (itertools.chain(*row) for row in pixels))

    for source, dest in duplicate_filenames:
        shutil.copyfile(
            str(pokemon_sprites_dir / source) + '.png',
            str(pokemon_sprites_dir / dest) + '.png',
        )


def _munge_source_arg(strpath):
    path = Path(strpath)
    if not path.is_dir():
        raise argparse.ArgumentTypeError(
            "{!r} is not a directory".format(strpath))

    # TODO something something romfs, exefs
    return path

def make_arg_parser():
    p = argparse.ArgumentParser()
    p.add_argument('what', choices=('data', 'dex-sprites', 'box-sprites'), help='what to extract')
    # TODO should verify that this is an actual game dump, and find the rom/exe
    p.add_argument('source', type=_munge_source_arg, help='path to an unpacked game image')
    p.add_argument('dest', type=_munge_source_arg, help='directory to dump the results into')

    return p


def main(args):
    parser = make_arg_parser()
    args = parser.parse_args(args)

    # TODO support 'all', and just make some subdirectories per thing
    # TODO or maybe merge all the sprite things together since stuff will need moving around anyway idk
    if args.what == 'data':
        extract_data(args.source, args.dest)
    elif args.what == 'dex-sprites':
        extract_dex_sprites(args.source, args.dest)
    elif args.what == 'box-sprites':
        extract_box_sprites(args.source, args.dest)


if __name__ == '__main__':
    import sys
    main(sys.argv[1:])