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FrameSequencer:

Browse Source 
- Extract out a (File)FrameSequencer class from Video to encapsulate
the generation of still frames.  This also makes Video easier to test.

- Fix FileFrameSequencer.frames() to correctly handle filenames
  containing '.'

- Temporarily switch to the BMP2DHR NTSC palette (#5) for evaluation.

Video:
- Temporarily hardcode DHGR decoding

- Optimize _heapify_priorities() by using numpy to vectorize the
  construction of the list of tuples.  This requires changing the
  random nonce to an int so the intermediate array has a uniform type.

- Use the efficient 28-bit representation of DHGR (aux, main, aux,
  main) tuples introduced in DHGRBitmap to evaluate diffs

- Switch to np.int type for accumulating diffs, and random.randint(0,
  10000) instead of float for nonce values.

- Fix/improve some of the error evaluation in _index_changes:
  - skip offsets whose diffs have already been cleared
  - hoist some stuff out of _compute_error into the parent

- Add some validation that when we run out of work to do with a frame,
  the source and target memory maps should be equal.  This isn't
  happening sometimes, i.e. there is a bug.
This commit is contained in:
kris 2019-06-14 00:12:26 +01:00
parent 15c77f2465
commit fd49736b71
3 changed files with 286 additions and 151 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

2
transcoder/main.py
View File

@ -40,7 +40,7 @@ def main(args):
video_mode=video.Mode[args.video_mode] video_mode=video.Mode[args.video_mode]
) )
print("Input frame rate = %f" % m.video.input_frame_rate) print("Input frame rate = %f" % m.frame_sequencer.input_frame_rate)
if args.output: if args.output:
out_filename = args.output out_filename = args.output

17
transcoder/movie.py
View File

@ -23,8 +23,11 @@ class Movie:
self.audio = audio.Audio( self.audio = audio.Audio(
filename, normalization=audio_normalization) # type: audio.Audio filename, normalization=audio_normalization) # type: audio.Audio
self.frame_sequencer = video.FileFrameSequencer(
filename, mode=video_mode)
self.video = video.Video( self.video = video.Video(
filename, mode=video_mode, self.frame_sequencer, mode=video_mode,
ticks_per_second=self.audio.sample_rate ticks_per_second=self.audio.sample_rate
) # type: video.Video ) # type: video.Video
@ -44,7 +47,7 @@ class Movie:
:return: :return:
""" """
video_frames = self.video.frames() video_frames = self.frame_sequencer.frames()
main_seq = None main_seq = None
aux_seq = None aux_seq = None
@ -61,21 +64,17 @@ class Movie:
if ((self.video.frame_number - 1) % self.every_n_video_frames if ((self.video.frame_number - 1) % self.every_n_video_frames
== 0): == 0):
print("Starting frame %d" % self.video.frame_number) print("Starting frame %d" % self.video.frame_number)
main_seq = self.video.encode_frame( main_seq = self.video.encode_frame(main, is_aux=False)
main, self.video.memory_map, self.video.update_priority)
if aux: if aux:
aux_seq = self.video.encode_frame( aux_seq = self.video.encode_frame(aux, is_aux=True)
aux, self.video.aux_memory_map,
self.video.aux_update_priority)
# au has range -15 .. 16 (step=1) # au has range -15 .. 16 (step=1)
# Tick cycles are units of 2 # Tick cycles are units of 2
tick = au * 2 # -30 .. 32 (step=2) tick = au * 2 # -30 .. 32 (step=2)
tick += 34 # 4 .. 66 (step=2) tick += 34 # 4 .. 66 (step=2)
(page, content, offsets) = next( (page, content, offsets) = next(
aux_seq if self.aux_memory_bank else main_seq) aux_seq if self.aux_memory_bank else main_seq)
yield opcodes.TICK_OPCODES[(tick, page)](content, offsets) yield opcodes.TICK_OPCODES[(tick, page)](content, offsets)

418
transcoder/video.py
View File

@ -1,6 +1,7 @@
"""Encode a sequence of images as an optimized stream of screen changes.""" """Encode a sequence of images as an optimized stream of screen changes."""
import enum import enum
import functools
import heapq import heapq
import os import os
import queue import queue
@ -9,12 +10,10 @@ import subprocess
import threading import threading
from typing import List, Iterator, Tuple from typing import List, Iterator, Tuple
# import hitherdither
import numpy as np import numpy as np
import skvideo.io import skvideo.io
from PIL import Image from PIL import Image
import edit_distance
import opcodes import opcodes
import screen import screen
@ -24,20 +23,25 @@ class Mode(enum.Enum):
DHGR = 1 DHGR = 1
class Video: class FrameSequencer:
"""Apple II screen memory map encoding a bitmapped frame.""" def __init__(self, mode: Mode):
self.video_mode = mode
self.input_frame_rate = 30
CLOCK_SPEED = 1024 * 1024 # type: int def frames(self) -> Iterator[screen.MemoryMap]:
raise NotImplementedError
class FileFrameSequencer(FrameSequencer):
def __init__( def __init__(
self, self,
filename: str, filename: str,
ticks_per_second: float,
mode: Mode = Mode.HGR, mode: Mode = Mode.HGR,
): ):
super(FileFrameSequencer, self).__init__(mode)
self.filename = filename # type: str self.filename = filename # type: str
self.mode = mode # type: Mode self.mode = mode # type: Mode
self.ticks_per_second = ticks_per_second # type: float
self._reader = skvideo.io.FFmpegReader(filename) self._reader = skvideo.io.FFmpegReader(filename)
@ -48,73 +52,17 @@ class Video:
self.input_frame_rate = float( self.input_frame_rate = float(
rate_data[0]) / float(rate_data[1]) # type: float rate_data[0]) / float(rate_data[1]) # type: float
self.ticks_per_frame = (
self.ticks_per_second / self.input_frame_rate) # type: float
self.frame_number = 0 # type: int
# Initialize empty screen
self.memory_map = screen.MemoryMap(
screen_page=1) # type: screen.MemoryMap
if self.mode == mode.DHGR:
self.aux_memory_map = screen.MemoryMap(
screen_page=1) # type: screen.MemoryMap
# Accumulates pending edit weights across frames
self.update_priority = np.zeros((32, 256), dtype=np.int64)
if self.mode == mode.DHGR:
self.aux_update_priority = np.zeros((32, 256), dtype=np.int64)
def tick(self, ticks: int) -> bool:
if ticks >= (self.ticks_per_frame * self.frame_number):
self.frame_number += 1
return True
return False
def _frame_grabber(self) -> Iterator[Image.Image]: def _frame_grabber(self) -> Iterator[Image.Image]:
for frame_array in self._reader.nextFrame(): for frame_array in self._reader.nextFrame():
yield Image.fromarray(frame_array) yield Image.fromarray(frame_array)
@staticmethod
def _rgb(r, g, b):
return (r << 16) + (g << 8) + b
# def dither_framesframes(self) -> Iterator[screen.MemoryMap]:
# palette = hitherdither.palette.Palette(
# [
# self._rgb(0,0,0), # black */
# self._rgb(148,12,125), # red - hgr 0*/
# self._rgb(32,54,212), # dk blue - hgr 0 */
# self._rgb(188,55,255), # purple - default HGR overlay color */
# self._rgb(51,111,0), # dk green - hgr 0 */
# self._rgb(126,126,126), # gray - hgr 0 */
# self._rgb(7,168,225), # med blue - alternate HGR overlay
# # color */
# self._rgb(158,172,255), # lt blue - hgr 0 */
# self._rgb(99,77,0), # brown - hgr 0 */
# self._rgb(249,86,29), # orange */
# self._rgb(126,126,126), # grey - hgr 0 */
# self._rgb(255,129,236), # pink - hgr 0 */
# self._rgb(67,200,0), # lt green */
# self._rgb(221,206,23), # yellow - hgr 0 */
# self._rgb(93,248,133), # aqua - hgr 0 */
# self._rgb(255,255,255) # white
# ]
# )
# for _idx, _frame in enumerate(self._frame_grabber()):
# if _idx % 60 == 0:
# img_dithered = hitherdither.ordered.yliluoma.yliluomas_1_ordered_dithering(
# _frame.resize((280,192), resample=Image.NEAREST),
# palette, order=8)
#
# yield img_dithered
def frames(self) -> Iterator[screen.MemoryMap]: def frames(self) -> Iterator[screen.MemoryMap]:
"""Encode frame to HGR using bmp2dhr. """Encode frame to HGR using bmp2dhr.
We do the encoding in a background thread to parallelize. We do the encoding in a background thread to parallelize.
""" """
frame_dir = self.filename.split(".")[0] frame_dir = ".".join(self.filename.split(".")[:-1])
try: try:
os.mkdir(frame_dir) os.mkdir(frame_dir)
except FileExistsError: except FileExistsError:
@ -135,7 +83,8 @@ class Video:
# TODO: parametrize palette # TODO: parametrize palette
subprocess.call([ subprocess.call([
"/usr/local/bin/bmp2dhr", bmpfile, "hgr", "/usr/local/bin/bmp2dhr", bmpfile, "hgr",
"P0", # Kegs32 RGB Color palette(for //gs playback) "P5",
# "P0", # Kegs32 RGB Color palette(for //gs playback)
"D9" # Buckels dither "D9" # Buckels dither
]) ])
@ -160,8 +109,9 @@ class Video:
# TODO: parametrize palette # TODO: parametrize palette
subprocess.call([ subprocess.call([
"/usr/local/bin/bmp2dhr", bmpfile, "dhgr", "/usr/local/bin/bmp2dhr", bmpfile, "dhgr", # "v",
"P0", # Kegs32 RGB Color palette (for //gs playback) "P5", # "P0", # Kegs32 RGB Color palette (for //gs
# playback)
"A", # Output separate .BIN and .AUX files "A", # Output separate .BIN and .AUX files
"D9" # Buckels dither "D9" # Buckels dither
]) ])
@ -176,7 +126,7 @@ class Video:
def worker(): def worker():
"""Invoke bmp2dhr to encode input image frames and push to queue.""" """Invoke bmp2dhr to encode input image frames and push to queue."""
for _idx, _frame in enumerate(self._frame_grabber()): for _idx, _frame in enumerate(self._frame_grabber()):
if self.mode == Mode.DHGR: if self.video_mode == Mode.DHGR:
res = _dhgr_decode(_idx, _frame) res = _dhgr_decode(_idx, _frame)
else: else:
res = _hgr_decode(_idx, _frame) res = _hgr_decode(_idx, _frame)
@ -188,7 +138,6 @@ class Video:
t.start() t.start()
while True: while True:
main, aux = q.get() main, aux = q.get()
if main is None: if main is None:
break break
@ -205,35 +154,91 @@ class Video:
t.join() t.join()
class Video:
"""Apple II screen memory map encoding a bitmapped frame."""
CLOCK_SPEED = 1024 * 1024 # type: int
def __init__(
self,
frame_sequencer: FrameSequencer,
mode: Mode = Mode.HGR
):
self.mode = mode # type: Mode
self.frame_sequencer = frame_sequencer # type: FrameSequencer
self.ticks_per_frame = (
self.ticks_per_second / self.input_frame_rate) # type: float
self.frame_number = 0 # type: int
# Initialize empty screen
self.memory_map = screen.MemoryMap(
screen_page=1) # type: screen.MemoryMap
if self.mode == mode.DHGR:
self.aux_memory_map = screen.MemoryMap(
screen_page=1) # type: screen.MemoryMap
self.pixelmap = screen.DHGRBitmap(
main_memory=self.memory_map,
aux_memory=self.aux_memory_map
)
# Accumulates pending edit weights across frames
self.update_priority = np.zeros((32, 256), dtype=np.int)
if self.mode == mode.DHGR:
self.aux_update_priority = np.zeros((32, 256), dtype=np.int)
def tick(self, cycles: int) -> bool:
if cycles > (self.cycles_per_frame * self.frame_number):
self.frame_number += 1
return True
return False
def encode_frame( def encode_frame(
self, target: screen.MemoryMap, self,
memory_map: screen.MemoryMap, target: screen.MemoryMap,
update_priority: np.array, is_aux: bool,
) -> Iterator[opcodes.Opcode]: ) -> Iterator[opcodes.Opcode]:
"""Update to match content of frame within provided budget.""" """Update to match content of frame within provided budget."""
if is_aux:
memory_map = self.aux_memory_map
update_priority = self.aux_update_priority
else:
memory_map = self.memory_map
update_priority = self.update_priority
print("Similarity %f" % (update_priority.mean())) print("Similarity %f" % (update_priority.mean()))
yield from self._index_changes(memory_map, target, update_priority)
yield from self._index_changes(
memory_map, target, update_priority, is_aux)
def _index_changes( def _index_changes(
self, self,
source: screen.MemoryMap, source: screen.MemoryMap,
target: screen.MemoryMap, target: screen.MemoryMap,
update_priority: np.array update_priority: np.array,
is_aux: True
) -> Iterator[Tuple[int, int, List[int]]]: ) -> Iterator[Tuple[int, int, List[int]]]:
"""Transform encoded screen to sequence of change tuples.""" """Transform encoded screen to sequence of change tuples."""
diff_weights = self._diff_weights(source, target) if is_aux:
target_pixelmap = screen.DHGRBitmap(
main_memory=self.memory_map,
aux_memory=target
)
else:
target_pixelmap = screen.DHGRBitmap(
main_memory=target,
aux_memory=self.aux_memory_map
)
diff_weights = self._diff_weights(
self.pixelmap, target_pixelmap, is_aux
)
# Clear any update priority entries that have resolved themselves # Clear any update priority entries that have resolved themselves
# with new frame # with new frame
update_priority[diff_weights == 0] = 0 update_priority[diff_weights == 0] = 0
# Halve existing weights to increase bias to new diffs.
# In particular this means that existing updates with diff 1 will
# become diff 0, i.e. will only be prioritized if they are still
# diffs in the new frame.
# self.update_priority >>= 1
update_priority += diff_weights update_priority += diff_weights
priorities = self._heapify_priorities(update_priority) priorities = self._heapify_priorities(update_priority)
@ -241,7 +246,8 @@ class Video:
content_deltas = {} content_deltas = {}
while priorities: while priorities:
_, _, page, offset = heapq.heappop(priorities) pri, _, page, offset = heapq.heappop(priorities)
# Check whether we've already cleared this diff while processing # Check whether we've already cleared this diff while processing
# an earlier opcode # an earlier opcode
if update_priority[page, offset] == 0: if update_priority[page, offset] == 0:
@ -249,100 +255,237 @@ class Video:
offsets = [offset] offsets = [offset]
content = target.page_offset[page, offset] content = target.page_offset[page, offset]
assert content < 0x80 # DHGR palette bit not expected to be set
# Clear priority for the offset we're emitting # Clear priority for the offset we're emitting
update_priority[page, offset] = 0 update_priority[page, offset] = 0
source.page_offset[page, offset] = content
diff_weights[page, offset] = 0 diff_weights[page, offset] = 0
# Update memory maps
source.page_offset[page, offset] = content
self.pixelmap.apply(page, offset, is_aux, content)
# Make sure we don't emit this offset as a side-effect of some # Make sure we don't emit this offset as a side-effect of some
# other offset later. # other offset later.
for cd in content_deltas.values(): for cd in content_deltas.values():
cd[page, offset] = 0 cd[page, offset] = 0
# TODO: what if we add another content_deltas entry later?
# We might clobber it again
# Need to find 3 more offsets to fill this opcode # Need to find 3 more offsets to fill this opcode
for o in self._compute_error( for err, o in self._compute_error(
page, page,
content, content,
target, target_pixelmap,
diff_weights, diff_weights,
content_deltas content_deltas,
is_aux
): ):
offsets.append(o) assert o != offset
# Compute new edit distance between new content and target if update_priority[page, o] == 0:
# byte, so we can reinsert with this value # print("Skipping page=%d, offset=%d" % (page, o))
p = edit_distance.edit_weight( continue
content, target.page_offset[page, o], o % 2 == 1,
error=False) # Make sure we don't end up considering this (page, offset)
# again until the next image frame. Even if a better match
# comes along, it's probably better to fix up some other byte.
# TODO: or should we recompute it with new error?
for cd in content_deltas.values():
cd[page, o] = 0
byte_offset = target_pixelmap.interleaved_byte_offset(o, is_aux)
old_packed = target_pixelmap.packed[page, o // 2]
p = self._byte_pair_difference(
target_pixelmap, byte_offset, old_packed, content)
# Update priority for the offset we're emitting # Update priority for the offset we're emitting
update_priority[page, o] = p # 0 update_priority[page, o] = p # 0
source.page_offset[page, o] = content source.page_offset[page, o] = content
self.pixelmap.apply(page, o, is_aux, content)
if p: if p:
# This content byte introduced an error, so put back on the # This content byte introduced an error, so put back on the
# heap in case we can get back to fixing it exactly # heap in case we can get back to fixing it exactly
# during this frame. Otherwise we'll get to it later. # during this frame. Otherwise we'll get to it later.
heapq.heappush( heapq.heappush(
priorities, (-p, random.random(), page, offset)) priorities, (-p, random.randint(0, 10000), page, o))
offsets.append(o)
if len(offsets) == 3:
break
# Pad to 4 if we didn't find enough # Pad to 4 if we didn't find enough
for _ in range(len(offsets), 4): for _ in range(len(offsets), 4):
offsets.append(offsets[0]) offsets.append(offsets[0])
yield (page + 32, content, offsets) yield (page + 32, content, offsets)
# TODO: there is still a bug causing residual diffs when we have
# apparently run out of work to do
if not np.array_equal(source.page_offset, target.page_offset):
diffs = np.nonzero(source.page_offset != target.page_offset)
for i in range(len(diffs[0])):
diff_p = diffs[0][i]
diff_o = diffs[1][i]
print("Diff at (%d, %d): %d != %d" % (
diff_p, diff_o, source.page_offset[diff_p, diff_o],
target.page_offset[diff_p, diff_o]
))
# assert False
# If we run out of things to do, pad forever # If we run out of things to do, pad forever
content = target.page_offset[(0, 0)] content = target.page_offset[0, 0]
while True: while True:
yield (32, content, [0, 0, 0, 0]) yield (32, content, [0, 0, 0, 0])
@staticmethod @staticmethod
def _diff_weights( def _heapify_priorities(update_priority: np.array) -> List:
source: screen.MemoryMap, pages, offsets = update_priority.nonzero()
target: screen.MemoryMap priorities = [tuple(data) for data in np.stack((
): -update_priority[pages, offsets],
return edit_distance.screen_edit_distance(
source.page_offset, target.page_offset)
def _heapify_priorities(self, update_priority: np.array) -> List:
priorities = []
it = np.nditer(update_priority, flags=['multi_index'])
while not it.finished:
priority = it[0]
if not priority:
it.iternext()
continue
page, offset = it.multi_index
# Don't use deterministic order for page, offset # Don't use deterministic order for page, offset
nonce = random.random() np.random.randint(0, 10000, size=pages.shape[0]),
priorities.append((-priority, nonce, page, offset)) pages,
it.iternext() offsets)
).T.tolist()]
heapq.heapify(priorities) heapq.heapify(priorities)
return priorities return priorities
@staticmethod @staticmethod
def _compute_delta(content, target, old): def _diff_weights(
""" source: screen.DHGRBitmap,
This function is the critical path for the video encoding. target: screen.DHGRBitmap,
""" is_aux: bool
return edit_distance.byte_screen_error_distance(content, target) - old ):
diff = np.ndarray((32, 256), dtype=np.int)
if is_aux:
# Pixels influenced by byte offset 0
source_pixels0 = source.mask_and_shift_data(source.packed, 0)
target_pixels0 = target.mask_and_shift_data(target.packed, 0)
# Concatenate 8-bit source and target into 16-bit values
pair0 = (source_pixels0 << 8) + target_pixels0
dist0 = source.edit_distances[0][pair0].reshape(pair0.shape)
# Pixels influenced by byte offset 2
source_pixels2 = source.mask_and_shift_data(source.packed, 2)
target_pixels2 = target.mask_and_shift_data(target.packed, 2)
# Concatenate 12-bit source and target into 24-bit values
pair2 = (source_pixels2 << 12) + target_pixels2
dist2 = source.edit_distances[2][pair2].reshape(pair2.shape)
diff[:, 0::2] = dist0
diff[:, 1::2] = dist2
else:
# Pixels influenced by byte offset 1
source_pixels1 = source.mask_and_shift_data(source.packed, 1)
target_pixels1 = target.mask_and_shift_data(target.packed, 1)
pair1 = (source_pixels1 << 12) + target_pixels1
dist1 = source.edit_distances[1][pair1].reshape(pair1.shape)
# Pixels influenced by byte offset 3
source_pixels3 = source.mask_and_shift_data(source.packed, 3)
target_pixels3 = target.mask_and_shift_data(target.packed, 3)
pair3 = (source_pixels3 << 8) + target_pixels3
dist3 = source.edit_distances[3][pair3].reshape(pair3.shape)
diff[:, 0::2] = dist1
diff[:, 1::2] = dist3
return diff
@functools.lru_cache(None)
def _byte_pair_difference(
self,
target_pixelmap,
byte_offset,
old_packed,
content
):
old_pixels = target_pixelmap.mask_and_shift_data(
old_packed, byte_offset)
new_pixels = target_pixelmap.mask_and_shift_data(
target_pixelmap.masked_update(
byte_offset, old_packed, content), byte_offset)
if byte_offset == 0 or byte_offset == 3:
pair = (old_pixels << 8) + new_pixels
else:
pair = (old_pixels << 12) + new_pixels
p = target_pixelmap.edit_distances[byte_offset][pair]
return p
@staticmethod
def _compute_delta(
content: int,
target: screen.DHGRBitmap,
old,
is_aux: bool
):
diff = np.ndarray((32, 256), dtype=np.int)
# TODO: use error edit distance
if is_aux:
# Pixels influenced by byte offset 0
source_pixels0 = target.mask_and_shift_data(
target.masked_update(0, target.packed, content), 0)
target_pixels0 = target.mask_and_shift_data(target.packed, 0)
# Concatenate 8-bit source and target into 16-bit values
pair0 = (source_pixels0 << 8) + target_pixels0
dist0 = target.edit_distances[0][pair0].reshape(pair0.shape)
# Pixels influenced by byte offset 2
source_pixels2 = target.mask_and_shift_data(
target.masked_update(2, target.packed, content), 2)
target_pixels2 = target.mask_and_shift_data(target.packed, 2)
# Concatenate 12-bit source and target into 24-bit values
pair2 = (source_pixels2 << 12) + target_pixels2
dist2 = target.edit_distances[2][pair2].reshape(pair2.shape)
diff[:, 0::2] = dist0
diff[:, 1::2] = dist2
else:
# Pixels influenced by byte offset 1
source_pixels1 = target.mask_and_shift_data(
target.masked_update(1, target.packed, content), 1)
target_pixels1 = target.mask_and_shift_data(target.packed, 1)
pair1 = (source_pixels1 << 12) + target_pixels1
dist1 = target.edit_distances[1][pair1].reshape(pair1.shape)
# Pixels influenced by byte offset 3
source_pixels3 = target.mask_and_shift_data(
target.masked_update(3, target.packed, content), 3)
target_pixels3 = target.mask_and_shift_data(target.packed, 3)
pair3 = (source_pixels3 << 8) + target_pixels3
dist3 = target.edit_distances[3][pair3].reshape(pair3.shape)
diff[:, 0::2] = dist1
diff[:, 1::2] = dist3
# TODO: try different weightings
return (diff * 5) - old
_OFFSETS = np.arange(256) _OFFSETS = np.arange(256)
def _compute_error(self, page, content, target, old_error, content_deltas): def _compute_error(self, page, content, target_pixelmap, old_error,
offsets = [] content_deltas, is_aux):
# TODO: move this up into parent # TODO: move this up into parent
delta_screen = content_deltas.get(content) delta_screen = content_deltas.get(content)
if delta_screen is None: if delta_screen is None:
delta_screen = self._compute_delta( delta_screen = self._compute_delta(
content, target.page_offset, old_error) content, target_pixelmap, old_error, is_aux)
content_deltas[content] = delta_screen content_deltas[content] = delta_screen
delta_page = delta_screen[page] delta_page = delta_screen[page]
@ -350,23 +493,16 @@ class Video:
candidate_offsets = self._OFFSETS[cond] candidate_offsets = self._OFFSETS[cond]
priorities = delta_page[cond] priorities = delta_page[cond]
l = [ # TODO: vectorize this with numpy
(priorities[i], random.random(), candidate_offsets[i]) deltas = [
(priorities[i], random.randint(0, 10000), candidate_offsets[i])
for i in range(len(candidate_offsets)) for i in range(len(candidate_offsets))
] ]
heapq.heapify(l) heapq.heapify(deltas)
while l: while deltas:
_, _, o = heapq.heappop(l) pri, _, o = heapq.heappop(deltas)
offsets.append(o) assert pri < 0
assert o < 255
# Make sure we don't end up considering this (page, offset) again yield -pri, o
# until the next image frame. Even if a better match comes along,
# it's probably better to fix up some other byte.
for cd in content_deltas.values():
cd[page, o] = 0
if len(offsets) == 3:
break
return offsets