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qmk_firmware/lib/python/qmk/painter.py

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"""Functions that help us work with Quantum Painter's file formats.
"""
import datetime
import math
import re
from string import Template
from PIL import Image, ImageOps
# The list of valid formats Quantum Painter supports
valid_formats = {
'rgb888': {
'image_format': 'IMAGE_FORMAT_RGB888',
'bpp': 24,
'has_palette': False,
'num_colors': 16777216,
'image_format_byte': 0x09, # see qp_internal_formats.h
},
'rgb565': {
'image_format': 'IMAGE_FORMAT_RGB565',
'bpp': 16,
'has_palette': False,
'num_colors': 65536,
'image_format_byte': 0x08, # see qp_internal_formats.h
},
'pal256': {
'image_format': 'IMAGE_FORMAT_PALETTE',
'bpp': 8,
'has_palette': True,
'num_colors': 256,
'image_format_byte': 0x07, # see qp_internal_formats.h
},
'pal16': {
'image_format': 'IMAGE_FORMAT_PALETTE',
'bpp': 4,
'has_palette': True,
'num_colors': 16,
'image_format_byte': 0x06, # see qp_internal_formats.h
},
'pal4': {
'image_format': 'IMAGE_FORMAT_PALETTE',
'bpp': 2,
'has_palette': True,
'num_colors': 4,
'image_format_byte': 0x05, # see qp_internal_formats.h
},
'pal2': {
'image_format': 'IMAGE_FORMAT_PALETTE',
'bpp': 1,
'has_palette': True,
'num_colors': 2,
'image_format_byte': 0x04, # see qp_internal_formats.h
},
'mono256': {
'image_format': 'IMAGE_FORMAT_GRAYSCALE',
'bpp': 8,
'has_palette': False,
'num_colors': 256,
'image_format_byte': 0x03, # see qp_internal_formats.h
},
'mono16': {
'image_format': 'IMAGE_FORMAT_GRAYSCALE',
'bpp': 4,
'has_palette': False,
'num_colors': 16,
'image_format_byte': 0x02, # see qp_internal_formats.h
},
'mono4': {
'image_format': 'IMAGE_FORMAT_GRAYSCALE',
'bpp': 2,
'has_palette': False,
'num_colors': 4,
'image_format_byte': 0x01, # see qp_internal_formats.h
},
'mono2': {
'image_format': 'IMAGE_FORMAT_GRAYSCALE',
'bpp': 1,
'has_palette': False,
'num_colors': 2,
'image_format_byte': 0x00, # see qp_internal_formats.h
}
}
def _render_text(values):
# FIXME: May need more chars with GIFs containing lots of frames (or longer durations)
return "|".join([f"{i:4d}" for i in values])
def _render_numeration(metadata):
return _render_text(range(len(metadata)))
def _render_values(metadata, key):
return _render_text([i[key] for i in metadata])
def _render_image_metadata(metadata):
size = metadata.pop(0)
lines = [
"// Image's metadata",
"// ----------------",
f"// Width: {size['width']}",
f"// Height: {size['height']}",
]
if len(metadata) == 1:
lines.append("// Single frame")
else:
lines.extend([
f"// Frame: {_render_numeration(metadata)}",
f"// Duration(ms): {_render_values(metadata, 'delay')}",
f"// Compression: {_render_values(metadata, 'compression')} >> See qp.h, painter_compression_t",
f"// Delta: {_render_values(metadata, 'delta')}",
])
deltas = []
for i, v in enumerate(metadata):
# Not a delta frame, go to next one
if not v["delta"]:
continue
# Unpack rect's coords
l, t, r, b = v["delta_rect"]
delta_px = (r - l) * (b - t)
px = size["width"] * size["height"]
# FIXME: May need need more chars here too
deltas.append(f"// Frame {i:3d}: ({l:3d}, {t:3d}) - ({r:3d}, {b:3d}) >> {delta_px:4d}/{px:4d} pixels ({100*delta_px/px:.2f}%)")
if deltas:
lines.append("// Areas on delta frames")
lines.extend(deltas)
return "\n".join(lines)
def generate_subs(cli, out_bytes, *, font_metadata=None, image_metadata=None, command):
if font_metadata is not None and image_metadata is not None:
raise ValueError("Cant generate subs for font and image at the same time")
subs = {
"year": datetime.date.today().strftime("%Y"),
"input_file": cli.args.input.name,
"sane_name": re.sub(r"[^a-zA-Z0-9]", "_", cli.args.input.stem),
"byte_count": len(out_bytes),
"bytes_lines": render_bytes(out_bytes),
"format": cli.args.format,
"generator_command": command,
}
if font_metadata is not None:
subs.update({
"generated_type": "font",
"var_prefix": "font",
# not using triple quotes to avoid extra indentation/weird formatted code
"metadata": "\n".join([
"// Font's metadata",
"// ---------------",
f"// Glyphs: {', '.join([i for i in font_metadata['glyphs']])}",
]),
})
elif image_metadata is not None:
subs.update({
"generated_type": "image",
"var_prefix": "gfx",
"generator_command": command,
"metadata": _render_image_metadata(image_metadata),
})
else:
raise ValueError("Pass metadata for either an image or a font")
subs.update({"license": render_license(subs)})
return subs
license_template = """\
// Copyright ${year} QMK -- generated source code only, ${generated_type} retains original copyright
// SPDX-License-Identifier: GPL-2.0-or-later
// This file was auto-generated by `${generator_command}`
"""
def render_license(subs):
license_txt = Template(license_template)
return license_txt.substitute(subs)
header_file_template = """\
${license}
#pragma once
#include <qp.h>
extern const uint32_t ${var_prefix}_${sane_name}_length;
extern const uint8_t ${var_prefix}_${sane_name}[${byte_count}];
"""
def render_header(subs):
header_txt = Template(header_file_template)
return header_txt.substitute(subs)
source_file_template = """\
${license}
${metadata}
#include <qp.h>
const uint32_t ${var_prefix}_${sane_name}_length = ${byte_count};
// clang-format off
const uint8_t ${var_prefix}_${sane_name}[${byte_count}] = {
${bytes_lines}
};
// clang-format on
"""
def render_source(subs):
source_txt = Template(source_file_template)
return source_txt.substitute(subs)
def render_bytes(bytes, newline_after=16):
lines = ''
for n in range(len(bytes)):
if n % newline_after == 0 and n > 0 and n != len(bytes):
lines = lines + "\n "
elif n == 0:
lines = lines + " "
lines = lines + " 0x{0:02X},".format(bytes[n])
return lines.rstrip()
def clean_output(str):
str = re.sub(r'\r', '', str)
str = re.sub(r'[\n]{3,}', r'\n\n', str)
return str
def rescale_byte(val, maxval):
"""Rescales a byte value to the supplied range, i.e. [0,255] -> [0,maxval].
"""
return int(round(val * maxval / 255.0))
def convert_requested_format(im, format):
"""Convert an image to the requested format.
"""
# Work out the requested format
ncolors = format["num_colors"]
image_format = format["image_format"]
# -- Check if ncolors is valid
# Formats accepting several options
if image_format in ['IMAGE_FORMAT_GRAYSCALE', 'IMAGE_FORMAT_PALETTE']:
valid = [2, 4, 8, 16, 256]
# Formats expecting a particular number
else:
# Read number from specs dict, instead of hardcoding
for _, fmt in valid_formats.items():
if fmt["image_format"] == image_format:
# has to be an iterable, to use `in`
valid = [fmt["num_colors"]]
break
if ncolors not in valid:
raise ValueError(f"Number of colors must be: {', '.join(valid)}.")
# Work out where we're getting the bytes from
if image_format == 'IMAGE_FORMAT_GRAYSCALE':
# If mono, convert input to grayscale, then to RGB, then grab the raw bytes corresponding to the intensity of the red channel
im = ImageOps.grayscale(im)
im = im.convert("RGB")
elif image_format == 'IMAGE_FORMAT_PALETTE':
# If color, convert input to RGB, palettize based on the supplied number of colors, then get the raw palette bytes
im = im.convert("RGB")
im = im.convert("P", palette=Image.ADAPTIVE, colors=ncolors)
elif image_format in ['IMAGE_FORMAT_RGB565', 'IMAGE_FORMAT_RGB888']:
# Convert input to RGB
im = im.convert("RGB")
return im
def rgb_to565(r, g, b):
msb = ((r >> 3 & 0x1F) << 3) + (g >> 5 & 0x07)
lsb = ((g >> 2 & 0x07) << 5) + (b >> 3 & 0x1F)
return [msb, lsb]
def convert_image_bytes(im, format):
"""Convert the supplied image to the equivalent bytes required by the QMK firmware.
"""
# Work out the requested format
ncolors = format["num_colors"]
image_format = format["image_format"]
shifter = int(math.log2(ncolors))
pixels_per_byte = int(8 / math.log2(ncolors))
bytes_per_pixel = math.ceil(math.log2(ncolors) / 8)
(width, height) = im.size
if (pixels_per_byte != 0):
expected_byte_count = ((width * height) + (pixels_per_byte - 1)) // pixels_per_byte
else:
expected_byte_count = width * height * bytes_per_pixel
if image_format == 'IMAGE_FORMAT_GRAYSCALE':
# Take the red channel
image_bytes = im.tobytes("raw", "R")
image_bytes_len = len(image_bytes)
# No palette
palette = None
bytearray = []
for x in range(expected_byte_count):
byte = 0
for n in range(pixels_per_byte):
byte_offset = x * pixels_per_byte + n
if byte_offset < image_bytes_len:
# If mono, each input byte is a grayscale [0,255] pixel -- rescale to the range we want then pack together
byte = byte | (rescale_byte(image_bytes[byte_offset], ncolors - 1) << int(n * shifter))
bytearray.append(byte)
elif image_format == 'IMAGE_FORMAT_PALETTE':
# Convert each pixel to the palette bytes
image_bytes = im.tobytes("raw", "P")
image_bytes_len = len(image_bytes)
# Export the palette
palette = []
pal = im.getpalette()
for n in range(0, ncolors * 3, 3):
palette.append((pal[n + 0], pal[n + 1], pal[n + 2]))
bytearray = []
for x in range(expected_byte_count):
byte = 0
for n in range(pixels_per_byte):
byte_offset = x * pixels_per_byte + n
if byte_offset < image_bytes_len:
# If color, each input byte is the index into the color palette -- pack them together
byte = byte | ((image_bytes[byte_offset] & (ncolors - 1)) << int(n * shifter))
bytearray.append(byte)
if image_format == 'IMAGE_FORMAT_RGB565':
# Take the red, green, and blue channels
red = im.tobytes("raw", "R")
green = im.tobytes("raw", "G")
blue = im.tobytes("raw", "B")
# No palette
palette = None
bytearray = [byte for r, g, b in zip(red, green, blue) for byte in rgb_to565(r, g, b)]
if image_format == 'IMAGE_FORMAT_RGB888':
# Take the red, green, and blue channels
red = im.tobytes("raw", "R")
green = im.tobytes("raw", "G")
blue = im.tobytes("raw", "B")
# No palette
palette = None
bytearray = [byte for r, g, b in zip(red, green, blue) for byte in (r, g, b)]
if len(bytearray) != expected_byte_count:
raise Exception(f"Wrong byte count, was {len(bytearray)}, expected {expected_byte_count}")
return (palette, bytearray)
def compress_bytes_qmk_rle(bytearray):
debug_dump = False
output = []
temp = []
repeat = False
def append_byte(c):
if debug_dump:
print('Appending byte:', '0x{0:02X}'.format(int(c)), '=', c)
output.append(c)
def append_range(r):
append_byte(127 + len(r))
if debug_dump:
print('Appending {0} byte(s):'.format(len(r)), '[', ', '.join(['{0:02X}'.format(e) for e in r]), ']')
output.extend(r)
for n in range(0, len(bytearray) + 1):
end = True if n == len(bytearray) else False
if not end:
c = bytearray[n]
temp.append(c)
if len(temp) <= 1:
continue
if debug_dump:
print('Temp buffer state {0:3d} bytes:'.format(len(temp)), '[', ', '.join(['{0:02X}'.format(e) for e in temp]), ']')
if repeat:
if temp[-1] != temp[-2]:
repeat = False
if not repeat or len(temp) == 128 or end:
append_byte(len(temp) if end else len(temp) - 1)
append_byte(temp[0])
temp = [temp[-1]]
repeat = False
else:
if len(temp) >= 2 and temp[-1] == temp[-2]:
repeat = True
if len(temp) > 2:
append_range(temp[0:(len(temp) - 2)])
temp = [temp[-1], temp[-1]]
continue
if len(temp) == 128 or end:
append_range(temp)
temp = []
repeat = False
return output