mirror of
https://github.com/MarlinFirmware/Marlin.git
synced 2024-12-04 18:07:38 +00:00
200 lines
6.6 KiB
Python
Executable File
200 lines
6.6 KiB
Python
Executable File
#!/usr/bin/env python3
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#
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# Bitwise RLE compress a Marlin mono DOGM bitmap.
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# Input: An existing Marlin Marlin mono DOGM bitmap .cpp or .h file.
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# Output: A new file with the original and compressed data.
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#
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# Usage: rle_compress_bitmap.py INPUT_FILE OUTPUT_FILE
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#
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import sys,struct
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import re
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def addCompressedData(input_file, output_file):
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input_lines = input_file.readlines()
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input_file.close()
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ofile = open(output_file, 'wt')
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datatype = "uint8_t"
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bytewidth = 16
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raw_data = []
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arrname = ''
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c_data_section = False ; c_skip_data = False ; c_footer = False
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for line in input_lines:
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if not line: break
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if not c_footer:
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if not c_skip_data: ofile.write(line)
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mat = re.match(r'.+CUSTOM_BOOTSCREEN_BMPWIDTH\s+(\d+)', line)
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if mat: bytewidth = (int(mat[1]) + 7) // 8
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if "};" in line:
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c_skip_data = False
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c_data_section = False
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c_footer = True
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if c_data_section:
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cleaned = re.sub(r"\s|,|\n", "", line)
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mat = re.match(r'(0b|B)[01]{8}', cleaned)
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if mat:
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as_list = cleaned.split(mat[1])
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as_list.pop(0)
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raw_data += [int(x, 2) for x in as_list]
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else:
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as_list = cleaned.split("0x")
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as_list.pop(0)
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raw_data += [int(x, 16) for x in as_list]
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mat = re.match(r'const (uint\d+_t|unsigned char)', line)
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if mat:
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# e.g.: const unsigned char custom_start_bmp[] PROGMEM = {
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datatype = mat[0]
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if "_rle" in line:
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c_skip_data = True
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else:
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c_data_section = True
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arrname = line.split('[')[0].split(' ')[-1]
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print("Found data array", arrname)
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#print("\nRaw Bitmap Data", raw_data)
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#
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# Bitwise RLE (run length) encoding
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# Convert data from raw mono bitmap to a bitwise run-length-encoded format.
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# - The first nybble is the starting bit state. Changing this nybble inverts the bitmap.
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# - The following bytes provide the runs for alternating on/off bits.
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# - A value of 0-14 encodes a run of 1-15.
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# - A value of 16 indicates a run of 16-270 calculated using the next two bytes.
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#
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def bitwise_rle_encode(data):
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def get_bit(data, n): return 1 if (data[n // 8] & (0x80 >> (n & 7))) else 0
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def try_encode(data, isext):
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bitslen = len(data) * 8
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bitstate = get_bit(data, 0)
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rledata = [ bitstate ]
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bigrun = 256 if isext else 272
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medrun = False
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i = 0
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runlen = -1
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while i <= bitslen:
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if i < bitslen: b = get_bit(data, i)
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runlen += 1
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if bitstate != b or i == bitslen:
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if runlen >= bigrun:
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isext = True
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if medrun: return [], isext
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rem = runlen & 0xFF
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rledata += [ 15, 15, rem // 16, rem % 16 ]
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elif runlen >= 16:
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rledata += [ 15, runlen // 16 - 1, runlen % 16 ]
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if runlen >= 256: medrun = True
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else:
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rledata += [ runlen - 1 ]
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bitstate ^= 1
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runlen = 0
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i += 1
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#print("\nrledata", rledata)
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encoded = []
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ri = 0
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rlen = len(rledata)
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while ri < rlen:
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v = rledata[ri] << 4
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if (ri < rlen - 1): v |= rledata[ri + 1]
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encoded += [ v ]
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ri += 2
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#print("\nencoded", encoded)
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return encoded, isext
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# Try to encode with the original isext flag
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warn = "This may take a while" if len(data) > 300000 else ""
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print("Compressing image data...", warn)
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isext = False
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encoded, isext = try_encode(data, isext)
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if len(encoded) == 0:
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encoded, isext = try_encode(data, True)
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return encoded, isext
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def bitwise_rle_decode(isext, rledata, invert=0):
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expanded = []
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for n in rledata: expanded += [ n >> 4, n & 0xF ]
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decoded = []
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bitstate = 0 ; workbyte = 0 ; outindex = 0
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i = 0
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while i < len(expanded):
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c = expanded[i]
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i += 1
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if i == 1: bitstate = c ; continue
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if c == 15:
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d = expanded[i] ; e = expanded[i + 1]
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if isext and d == 15:
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c = 256 + 16 * e + expanded[i + 2] - 1
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i += 1
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else:
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c = 16 * d + e + 15
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i += 2
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for _ in range(c, -1, -1):
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bitval = 0x80 >> (outindex & 7)
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if bitstate: workbyte |= bitval
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if bitval == 1:
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decoded += [ workbyte ]
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workbyte = 0
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outindex += 1
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bitstate ^= 1
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print("\nDecoded RLE data:")
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pretty = [ '{0:08b}'.format(v) for v in decoded ]
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rows = [pretty[i:i+bytewidth] for i in range(0, len(pretty), bytewidth)]
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for row in rows: print(f"{''.join(row)}")
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return decoded
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def rle_emit(ofile, arrname, rledata, rawsize, isext):
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outstr = ''
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rows = [ rledata[i:i+16] for i in range(0, len(rledata), 16) ]
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for i in range(0, len(rows)):
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rows[i] = [ '0x{0:02X}'.format(v) for v in rows[i] ]
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outstr += f" {', '.join(rows[i])},\n"
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outstr = outstr[:-2]
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size = len(rledata)
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defname = 'COMPACT_CUSTOM_BOOTSCREEN_EXT' if isext else 'COMPACT_CUSTOM_BOOTSCREEN'
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ofile.write(f"\n// Saves {rawsize - size} bytes\n#define {defname}\n{datatype} {arrname}_rle[{size}] PROGMEM = {{\n{outstr}\n}};\n")
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# Encode the data, write it out, close the file
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rledata, isext = bitwise_rle_encode(raw_data)
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rle_emit(ofile, arrname, rledata, len(raw_data), isext)
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ofile.close()
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# Validate that code properly compressed (and decompressed) the data
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checkdata = bitwise_rle_decode(isext, rledata)
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for i in range(0, len(checkdata)):
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if raw_data[i] != checkdata[i]:
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print(f'Data mismatch at byte offset {i} (should be {raw_data[i]} but got {checkdata[i]})')
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break
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if len(sys.argv) <= 2:
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print('Usage: rle_compress_bitmap.py INPUT_FILE OUTPUT_FILE')
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exit(1)
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output_h = sys.argv[2]
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inname = sys.argv[1].replace('//', '/')
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try:
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input_h = open(inname)
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print("Processing", inname, "...")
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addCompressedData(input_h, output_h)
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except OSError:
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print("Can't find input file", inname)
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