unleashed-firmware/scripts/flipper/assets/dolphin.py

371 lines
14 KiB
Python

import multiprocessing
import logging
import os
import sys
import shutil
from collections import Counter
from flipper.utils.fff import *
from flipper.utils.templite import *
from .icon import *
def _convert_image_to_bm(pair: set):
source_filename, destination_filename = pair
image = file2image(source_filename)
image.write(destination_filename)
def _convert_image(source_filename: str):
image = file2image(source_filename)
return image.data
class DolphinBubbleAnimation:
FILE_TYPE = "Flipper Animation"
FILE_VERSION = 1
def __init__(
self,
name: str,
min_butthurt: int,
max_butthurt: int,
min_level: int,
max_level: int,
weight: int,
):
# Manifest
self.name = name
self.min_butthurt = min_butthurt
self.max_butthurt = max_butthurt
self.min_level = min_level
self.max_level = max_level
self.weight = weight
# Meta and data
self.meta = {}
self.frames = []
self.bubbles = []
self.bubble_slots = None
# Logging
self.logger = logging.getLogger("DolphinBubbleAnimation")
def load(self, animation_directory: str):
if not os.path.isdir(animation_directory):
raise Exception(f"Animation folder doesn't exists: { animation_directory }")
meta_filename = os.path.join(animation_directory, "meta.txt")
if not os.path.isfile(meta_filename):
raise Exception(f"Animation meta file doesn't exists: { meta_filename }")
self.logger.info(f"Loading meta from {meta_filename}")
file = FlipperFormatFile()
file.load(meta_filename)
# Check file header
filetype, version = file.getHeader()
assert filetype == self.FILE_TYPE
assert version == self.FILE_VERSION
max_frame_number = None
unique_frames = None
total_frames_count = None
try:
# Main meta
self.meta["Width"] = file.readKeyInt("Width")
self.meta["Height"] = file.readKeyInt("Height")
self.meta["Passive frames"] = file.readKeyInt("Passive frames")
self.meta["Active frames"] = file.readKeyInt("Active frames")
self.meta["Frames order"] = file.readKeyIntArray("Frames order")
self.meta["Active cycles"] = file.readKeyInt("Active cycles")
self.meta["Frame rate"] = file.readKeyInt("Frame rate")
self.meta["Duration"] = file.readKeyInt("Duration")
self.meta["Active cooldown"] = file.readKeyInt("Active cooldown")
self.bubble_slots = file.readKeyInt("Bubble slots")
# Sanity Check
assert self.meta["Width"] > 0 and self.meta["Width"] <= 128
assert self.meta["Height"] > 0 and self.meta["Height"] <= 128
assert self.meta["Passive frames"] > 0
assert self.meta["Active frames"] >= 0
assert self.meta["Frames order"]
if self.meta["Active frames"] > 0:
assert self.meta["Active cooldown"] > 0
assert self.meta["Active cycles"] > 0
else:
assert self.meta["Active cooldown"] == 0
assert self.meta["Active cycles"] == 0
assert self.meta["Frame rate"] > 0
assert self.meta["Duration"] >= 0
# Frames sanity check
max_frame_number = max(self.meta["Frames order"])
ordered_frames_count = len(self.meta["Frames order"])
for i in range(max_frame_number + 1):
frame_filename = os.path.join(animation_directory, f"frame_{i}.png")
assert os.path.isfile(frame_filename)
self.frames.append(frame_filename)
# Sanity check
unique_frames = set(self.meta["Frames order"])
unique_frames_count = len(unique_frames)
if unique_frames_count != max_frame_number + 1:
self.logger.warning(f"Not all frames were used in {self.name}")
total_frames_count = self.meta["Passive frames"] + (
self.meta["Active frames"] * self.meta["Active cycles"]
)
# Extra checks
assert self.meta["Passive frames"] <= total_frames_count
assert self.meta["Active frames"] <= total_frames_count
assert (
self.meta["Passive frames"] + self.meta["Active frames"]
== ordered_frames_count
)
except EOFError as e:
raise Exception("Invalid meta file: too short")
except AssertionError as e:
self.logger.exception(e)
self.logger.error(f"Animation {self.name} got incorrect meta")
raise Exception("Meta file is invalid: incorrect data")
# Bubbles
while True:
try:
# Bubble data
bubble = {}
bubble["Slot"] = file.readKeyInt("Slot")
bubble["X"] = file.readKeyInt("X")
bubble["Y"] = file.readKeyInt("Y")
bubble["Text"] = file.readKey("Text")
bubble["AlignH"] = file.readKey("AlignH")
bubble["AlignV"] = file.readKey("AlignV")
bubble["StartFrame"] = file.readKeyInt("StartFrame")
bubble["EndFrame"] = file.readKeyInt("EndFrame")
# Sanity check
assert bubble["Slot"] <= self.bubble_slots
assert bubble["X"] >= 0 and bubble["X"] < 128
assert bubble["Y"] >= 0 and bubble["Y"] < 128
assert len(bubble["Text"]) > 0
assert bubble["AlignH"] in ["Left", "Center", "Right"]
assert bubble["AlignV"] in ["Bottom", "Center", "Top"]
assert bubble["StartFrame"] < total_frames_count
assert bubble["EndFrame"] < total_frames_count
assert bubble["EndFrame"] >= bubble["StartFrame"]
# Store bubble
self.bubbles.append(bubble)
except AssertionError as e:
self.logger.exception(e)
self.logger.error(
f"Animation {self.name} bubble slot {bubble_slot} got incorrect data: {bubble}"
)
raise Exception("Meta file is invalid: incorrect bubble data")
except EOFError:
break
def prepare(self):
bubbles_in_slots = Counter([bubble["Slot"] for bubble in self.bubbles])
last_slot = -1
bubble_index = 0
for bubble in self.bubbles:
slot = bubble["Slot"]
if slot == last_slot:
bubble_index += 1
else:
last_slot = slot
bubble_index = 0
bubble["_BubbleIndex"] = bubble_index
bubbles_in_slots[slot] -= 1
if bubbles_in_slots[slot] != 0:
bubble["_NextBubbleIndex"] = bubble_index + 1
def save(self, output_directory: str):
animation_directory = os.path.join(output_directory, self.name)
os.makedirs(animation_directory, exist_ok=True)
meta_filename = os.path.join(animation_directory, "meta.txt")
file = FlipperFormatFile()
file.setHeader(self.FILE_TYPE, self.FILE_VERSION)
file.writeEmptyLine()
# Write meta data
file.writeKey("Width", self.meta["Width"])
file.writeKey("Height", self.meta["Height"])
file.writeKey("Passive frames", self.meta["Passive frames"])
file.writeKey("Active frames", self.meta["Active frames"])
file.writeKey("Frames order", self.meta["Frames order"])
file.writeKey("Active cycles", self.meta["Active cycles"])
file.writeKey("Frame rate", self.meta["Frame rate"])
file.writeKey("Duration", self.meta["Duration"])
file.writeKey("Active cooldown", self.meta["Active cooldown"])
file.writeEmptyLine()
file.writeKey("Bubble slots", self.bubble_slots)
file.writeEmptyLine()
# Write bubble data
for bubble in self.bubbles:
file.writeKey("Slot", bubble["Slot"])
file.writeKey("X", bubble["X"])
file.writeKey("Y", bubble["Y"])
file.writeKey("Text", bubble["Text"])
file.writeKey("AlignH", bubble["AlignH"])
file.writeKey("AlignV", bubble["AlignV"])
file.writeKey("StartFrame", bubble["StartFrame"])
file.writeKey("EndFrame", bubble["EndFrame"])
file.writeEmptyLine()
file.save(meta_filename)
to_pack = []
for index, frame in enumerate(self.frames):
to_pack.append(
(frame, os.path.join(animation_directory, f"frame_{index}.bm"))
)
if ImageTools.is_processing_slow():
pool = multiprocessing.Pool()
pool.map(_convert_image_to_bm, to_pack)
else:
for image in to_pack:
_convert_image_to_bm(image)
def process(self):
if ImageTools.is_processing_slow():
pool = multiprocessing.Pool()
self.frames = pool.map(_convert_image, self.frames)
else:
self.frames = list(_convert_image(frame) for frame in self.frames)
class DolphinManifest:
FILE_TYPE = "Flipper Animation Manifest"
FILE_VERSION = 1
TEMPLATE_DIRECTORY = os.path.join(
os.path.dirname(os.path.realpath(__file__)), "templates"
)
TEMPLATE_H = os.path.join(TEMPLATE_DIRECTORY, "dolphin.h.tmpl")
TEMPLATE_C = os.path.join(TEMPLATE_DIRECTORY, "dolphin.c.tmpl")
def __init__(self):
self.animations = []
self.logger = logging.getLogger("DolphinManifest")
def load(self, source_directory: str):
manifest_filename = os.path.join(source_directory, "manifest.txt")
file = FlipperFormatFile()
file.load(manifest_filename)
# Check file header
filetype, version = file.getHeader()
assert filetype == self.FILE_TYPE
assert version == self.FILE_VERSION
# Load animation data
while True:
try:
# Read animation spcification
name = file.readKey("Name")
min_butthurt = file.readKeyInt("Min butthurt")
max_butthurt = file.readKeyInt("Max butthurt")
min_level = file.readKeyInt("Min level")
max_level = file.readKeyInt("Max level")
weight = file.readKeyInt("Weight")
assert len(name) > 0
assert min_butthurt >= 0
assert max_butthurt >= 0 and max_butthurt >= min_butthurt
assert min_level >= 0
assert max_level >= 0 and max_level >= min_level
assert weight >= 0
# Initialize animation
animation = DolphinBubbleAnimation(
name, min_butthurt, max_butthurt, min_level, max_level, weight
)
# Load Animation meta and frames
animation.load(os.path.join(source_directory, name))
# Add to array
self.animations.append(animation)
except EOFError:
break
def _renderTemplate(self, template_filename: str, output_filename: str, **kwargs):
template = Templite(filename=template_filename)
output = template.render(**kwargs)
with open(output_filename, "w", newline="\n") as file:
file.write(output)
def save2code(self, output_directory: str, symbol_name: str):
# Process frames
for animation in self.animations:
animation.process()
# Prepare substitution data
for animation in self.animations:
animation.prepare()
# Render Header
self._renderTemplate(
self.TEMPLATE_H,
os.path.join(output_directory, f"assets_{symbol_name}.h"),
animations=self.animations,
symbol_name=symbol_name,
)
# Render Source
self._renderTemplate(
self.TEMPLATE_C,
os.path.join(output_directory, f"assets_{symbol_name}.c"),
animations=self.animations,
symbol_name=symbol_name,
)
def save2folder(self, output_directory: str):
manifest_filename = os.path.join(output_directory, "manifest.txt")
file = FlipperFormatFile()
file.setHeader(self.FILE_TYPE, self.FILE_VERSION)
file.writeEmptyLine()
for animation in self.animations:
file.writeKey("Name", animation.name)
file.writeKey("Min butthurt", animation.min_butthurt)
file.writeKey("Max butthurt", animation.max_butthurt)
file.writeKey("Min level", animation.min_level)
file.writeKey("Max level", animation.max_level)
file.writeKey("Weight", animation.weight)
file.writeEmptyLine()
animation.save(output_directory)
file.save(manifest_filename)
def save(self, output_directory: str, symbol_name: str):
os.makedirs(output_directory, exist_ok=True)
if symbol_name:
self.save2code(output_directory, symbol_name)
else:
self.save2folder(output_directory)
class Dolphin:
def __init__(self):
self.manifest = DolphinManifest()
self.logger = logging.getLogger("Dolphin")
def load(self, source_directory: str):
assert os.path.isdir(source_directory)
# Load Manifest
self.logger.info(f"Loading directory {source_directory}")
self.manifest.load(source_directory)
def pack(self, output_directory: str, symbol_name: str = None):
self.manifest.save(output_directory, symbol_name)