def export_data(self, wtr):
if not isinstance(wtr, BinaryWriter):
wtr = BinaryWriter(wtr)
wtr: BinaryWriter
puzzle_text_section = BinaryWriter()
puzzle_text_section.write_string(self.text, encoding=self.encoding)
puzzle_correct_offset = puzzle_text_section.tell()
puzzle_text_section.write_string(self.correct_answer,
encoding=self.encoding)
puzzle_incorrect_offset = puzzle_text_section.tell()
puzzle_text_section.write_string(self.incorrect_answer,
encoding=self.encoding)
puzzle_hint1_offset = puzzle_text_section.tell()
puzzle_text_section.write_string(self.hint1, encoding=self.encoding)
puzzle_hint2_offset = puzzle_text_section.tell()
puzzle_text_section.write_string(self.hint2, encoding=self.encoding)
puzzle_hint3_offset = puzzle_text_section.tell()
puzzle_text_section.write_string(self.hint3, encoding=self.encoding)
wtr.write_uint16(self.number)
wtr.write_uint16(112)
wtr.write_string(self.title, encoding=self.encoding, size=0x30)
wtr.write_uint8(self.tutorial_id)
for picarat in self.picarat_decay:
wtr.write_uint8(picarat)
wtr.write_uint8(self._flags)
wtr.write_uint8(self.location_id)
wtr.write_uint8(self.type)
wtr.write_uint8(self.bg_btm_id)
wtr.write(self.original[0x3c:0x3e]) # UnkSoundId
wtr.write_uint8(self.bg_top_id)
wtr.write_uint8(self.reward_id)
wtr.write_uint32(0)
wtr.write_uint32(puzzle_correct_offset)
wtr.write_uint32(puzzle_incorrect_offset)
wtr.write_uint32(puzzle_hint1_offset)
wtr.write_uint32(puzzle_hint2_offset)
wtr.write_uint32(puzzle_hint3_offset)
wtr.write(b"\x00" * 4 * 6)
wtr.write(puzzle_text_section.data)
return wtr
def write(self, wtr: BinaryWriter):
wtr.write(b"fmt\x20")
wtr.write_uint32(0x10)
wtr.write_uint16(WaveFormat.WAVE_FORMAT_PCM)
wtr.write_uint16(self.num_channels)
wtr.write_uint32(self.sample_rate)
self.byte_rate = self.sample_rate * self.bits_per_sample * self.num_channels // 8
wtr.write_uint32(self.byte_rate)
self.block_align = self.num_channels * self.bits_per_sample // 8
wtr.write_uint16(self.block_align)
wtr.write_uint16(self.bits_per_sample)
def write_stream(self, stream: BinaryIO):
if isinstance(stream, BinaryWriter):
wtr = stream
else:
wtr = BinaryWriter(stream)
wtr.write_uint16(len(self._entries))
wtr.write_uint16(8)
wtr.write_uint16(len(self._entries[0]))
wtr.write_uint16(0)
for entry in self._entries:
wtr.write(entry)
def write_stream(self, stream: BinaryIO):
if isinstance(stream, BinaryWriter):
wtr = stream
else:
wtr = BinaryWriter(stream)
wtr.write_uint32(256)
for color_i in range(256):
self.palette[color_i]: np.ndarray
wtr.write_uint16(ndspy.color.pack255(*self.palette[color_i]))
img_h, img_w = self.image.shape
map_h, map_w = img_h // 8, img_w // 8
tiles = np.asarray([
self.image[y * 8:y * 8 + 8, x * 8:x * 8 + 8] for x in range(map_w)
for y in range(map_h)
])
tiles: np.ndarray = np.unique(tiles, axis=0)
wtr.write_uint32(len(tiles))
wtr.write(tiles.tobytes())
wtr.write_uint16(map_w)
wtr.write_uint16(map_h)
for y in range(map_h):
for x in range(map_w):
tile = self.image[y * 8:y * 8 + 8, x * 8:x * 8 + 8]
tile_id = np.where(
np.all(tile.reshape((
64, )) == tiles.reshape(tiles.shape[0], 64),
axis=1) == True)
wtr.write_uint16(tile_id[0][0])
def pcm16_to_adpcm(pcm16: np.ndarray):
enc_sample = pcm16_to_adpcm_encode_sample
# Uses BytesIO which is faster then concatination.
wtr = BinaryWriter()
wtr.write_uint16(pcm16[0])
sample, enc_index, enc_pred = enc_sample(pcm16[0], 0, 0)
wtr.write_uint16(enc_index)
for i in range(1, len(pcm16)):
if sample is None:
sample, enc_index, enc_pred = \
enc_sample(pcm16[0], enc_index, enc_pred)
else:
sample2, enc_index, enc_pred = \
enc_sample(pcm16[0], enc_index, enc_pred)
wtr.write_byte(sample2 << 4 | sample)
sample = None
if sample is not None:
wtr.write_uint8(sample)
return wtr.data
def write(self, bw: BinaryWriter):
bw.seek(0, io.SEEK_SET)
bw.write(self.magic)
bw.write_uint32(0)
bw.write_uint32(self.file_length)
bw.write_uint16(self.version)
bw.write_uint8(self.unk1)
bw.write_uint8(self.unk2)
bw.write_uint32(0)
bw.write_uint32(0)
bw.write_uint16(self.year)
bw.write_uint8(self.month)
bw.write_uint8(self.day)
bw.write_uint8(self.hour)
bw.write_uint8(self.minute)
bw.write_uint8(self.second)
bw.write_uint8(self.centisecond)
if self.file_name[-1] != 0:
self.file_name += b"\0"
bw.write_string(self.file_name, size=16, encoding=None, pad=b"\xFF")
bw.write_uint32(0x1)
bw.write_uint32(0x1)
bw.write_uint32(0xFFFFFFFF)
bw.write_uint32(0xFFFFFFFF)
def write(self, bw: BinaryWriter):
bw.seek(0x40, io.SEEK_SET)
bw.write(self.label)
bw.write_uint32(self.unk1)
bw.write_uint32(0xFF10)
bw.write_uint32(0xFFFFFFB0)
bw.write_uint16(0x1)
bw.write_uint16(self.tpqn)
bw.write_uint16(0xFF01)
bw.write_uint8(self.num_tracks)
bw.write_uint8(self.num_channels)
bw.write_uint32(0x0F000000)
bw.write_uint32(0xFFFFFFFF)
bw.write_uint32(0x40000000)
bw.write_uint32(0x00404000)
bw.write_uint16(0x0200)
bw.write_uint16(0x0800)
bw.write_uint32(0xFFFFFF00)
bw.write(b"\xFF" * 16)
def write_stream(self, stream: BinaryIO):
# TODO: Fix image writing
if isinstance(stream, BinaryWriter):
wtr = stream
else:
wtr = BinaryWriter(stream)
wtr.write_uint32(256)
for color_i in range(256):
self.palette[color_i]: np.ndarray
wtr.write_uint16(ndspy.color.pack255(*self.palette[color_i]))
img_h, img_w = self.image.shape
map_h, map_w = img_h // 8, img_w // 8
tiles: np.ndarray = np.unique(self.image.reshape((map_h * map_w, 8, 8)))
wtr.write_uint32(len(tiles))
wtr.write(tiles.tobytes())
wtr.write_uint16(map_w)
wtr.write_uint16(map_h)
for tile in self.image.reshape((map_h * map_w, 8, 8)):
wtr.write_uint16(np.where(tiles[tiles == tile])[0][0])
def write_stream(self, stream: BinaryIO):
if isinstance(stream, BinaryWriter):
wtr = stream
else:
wtr = BinaryWriter(stream)
wtr.write_uint32(0) # placeholder for file length
for p in self.params:
if isinstance(p, int):
wtr.write_uint16(1)
wtr.write_uint32(p)
elif isinstance(p, float):
wtr.write_uint16(2)
wtr.write_float(p)
elif isinstance(p, str):
wtr.write_uint16(3)
wtr.write_uint16(len(p) + 1)
wtr.write_string(p)
for c in self.commands:
wtr.write_uint16(0)
wtr.write_uint16(c.command)
for p in c.params:
if isinstance(p, int):
wtr.write_uint16(1)
wtr.write_uint32(p)
elif isinstance(p, float):
wtr.write_uint16(2)
wtr.write_float(p)
elif isinstance(p, str):
wtr.write_uint16(3)
wtr.write_uint16(len(p) + 1)
wtr.write_string(p)
wtr.write_uint16(0xc)
wtr.seek(0)
wtr.write_uint32(len(wtr.data) - 4)
def write_stream(self, stream):
if isinstance(stream, BinaryWriter):
wtr = stream
else:
wtr = BinaryWriter(stream)
wtr.write_uint16(len(self.images))
wtr.write_uint16(3 if self.colordepth == 4 else 4)
for img in self.images:
img_h, img_w = img.shape
wtr.write_uint16(img_w)
wtr.write_uint16(img_h)
# number of parts
wtr.write_uint16(
calculate_power_of_2_steps(img_w) *
calculate_power_of_2_steps(img_h))
wtr.write_zeros(2)
w_left, h_left = img_w, img_h
part_x, part_y = 0, 0
while h_left > 0:
part_h = get_nearest_power_of_2(h_left)
good_h = part_h
h_left -= part_h
w_left = img_w
part_x = 0
while w_left > 0:
part_w = get_nearest_power_of_2(w_left)
w_left -= part_w
part_h = good_h
wtr.write_uint16(part_x)
wtr.write_uint16(part_y)
wtr.write_uint16(int(log(part_w, 2)) - 3)
wtr.write_uint16(int(log(part_h, 2)) - 3)
part = np.zeros((part_h, part_w), np.uint8)
if part_x + part_w > img_w:
part_w = img_w - part_x
if part_y + part_h > img_h:
part_h = img_h - part_y
part[:part_h, :part_w] = img[part_y:part_y + part_h,
part_x:part_x + part_w]
if self.colordepth == 8:
wtr.write(part.tobytes())
else:
h, w = part.shape
bufpart = part.reshape((w * h))
part_4bit = np.zeros((h * w // 2), np.uint8)
part_4bit[:] = np.ndarray = bufpart[
0::2] & 0xf | bufpart[1::2] << 4
wtr.write(part_4bit.tobytes())
part_x += part_w
part_y += part_h
wtr.write_uint32(256 if self.colordepth == 8 else 16)
for color_i in range(256 if self.colordepth == 8 else 16):
self.palette[color_i]: np.ndarray
wtr.write_uint16(ndspy.color.pack255(*self.palette[color_i]))
wtr.write_zeros(0x1e)
wtr.write_uint32(len(self.animations))
for anim in self.animations:
wtr.write_string(anim.name, 0x1e)
for anim in self.animations:
wtr.write_uint32(len(anim.frames))
wtr.write_uint32_array([frame.index for frame in anim.frames])
wtr.write_uint32_array([frame.duration for frame in anim.frames])
wtr.write_uint32_array(
[frame.image_index for frame in anim.frames])
wtr.write_uint16(0x1234) # magic number probably
variable_labels = list(self.variables)
assert len(variable_labels) == 16
wtr.write_string_array(variable_labels, 16)
for dat_i in range(8):
for var_l in variable_labels:
wtr.write_int16(self.variables[var_l][dat_i])
for anim in self.animations:
wtr.write_uint16(anim.child_image_x)
for anim in self.animations:
wtr.write_uint16(anim.child_image_y)
for anim in self.animations:
wtr.write_uint8(anim.child_image_animation_index)
wtr.write_string(self.child_image, 128)
return stream
