""" Process raw qstr file and output qstr data with length, hash and data bytes. This script works with Python 2.7, 3.3 and 3.4. For documentation about the format of compressed translated strings, see supervisor/shared/translate.h """ from __future__ import print_function import re import sys import collections import gettext import os.path py = os.path.dirname(sys.argv[0]) top = os.path.dirname(py) sys.path.append(os.path.join(top, "tools/huffman")) import huffman # Python 2/3 compatibility: # - iterating through bytes is different # - codepoint2name lives in a different module import platform if platform.python_version_tuple()[0] == '2': bytes_cons = lambda val, enc=None: bytearray(val) from htmlentitydefs import codepoint2name elif platform.python_version_tuple()[0] == '3': bytes_cons = bytes from html.entities import codepoint2name # end compatibility code codepoint2name[ord('-')] = 'hyphen'; # add some custom names to map characters that aren't in HTML codepoint2name[ord(' ')] = 'space' codepoint2name[ord('\'')] = 'squot' codepoint2name[ord(',')] = 'comma' codepoint2name[ord('.')] = 'dot' codepoint2name[ord(':')] = 'colon' codepoint2name[ord(';')] = 'semicolon' codepoint2name[ord('/')] = 'slash' codepoint2name[ord('%')] = 'percent' codepoint2name[ord('#')] = 'hash' codepoint2name[ord('(')] = 'paren_open' codepoint2name[ord(')')] = 'paren_close' codepoint2name[ord('[')] = 'bracket_open' codepoint2name[ord(']')] = 'bracket_close' codepoint2name[ord('{')] = 'brace_open' codepoint2name[ord('}')] = 'brace_close' codepoint2name[ord('*')] = 'star' codepoint2name[ord('!')] = 'bang' codepoint2name[ord('\\')] = 'backslash' codepoint2name[ord('+')] = 'plus' codepoint2name[ord('$')] = 'dollar' codepoint2name[ord('=')] = 'equals' codepoint2name[ord('?')] = 'question' codepoint2name[ord('@')] = 'at_sign' codepoint2name[ord('^')] = 'caret' codepoint2name[ord('|')] = 'pipe' codepoint2name[ord('~')] = 'tilde' C_ESCAPES = { "\a": "\\a", "\b": "\\b", "\f": "\\f", "\n": "\\n", "\r": "\\r", "\t": "\\t", "\v": "\\v", "\'": "\\'", "\"": "\\\"" } # this must match the equivalent function in qstr.c def compute_hash(qstr, bytes_hash): hash = 5381 for b in qstr: hash = (hash * 33) ^ b # Make sure that valid hash is never zero, zero means "hash not computed" return (hash & ((1 << (8 * bytes_hash)) - 1)) or 1 def translate(translation_file, i18ns): with open(translation_file, "rb") as f: table = gettext.GNUTranslations(f) translations = [] for original in i18ns: unescaped = original for s in C_ESCAPES: unescaped = unescaped.replace(C_ESCAPES[s], s) translation = table.gettext(unescaped) # Add in carriage returns to work in terminals translation = translation.replace("\n", "\r\n") translations.append((original, translation)) return translations def compute_huffman_coding(translations, qstrs, compression_filename): all_strings = [x[1] for x in translations] # go through each qstr and print it out for _, _, qstr in qstrs.values(): all_strings.append(qstr) all_strings_concat = "".join(all_strings) counts = collections.Counter(all_strings_concat) cb = huffman.codebook(counts.items()) values = [] length_count = {} renumbered = 0 last_l = None canonical = {} for ch, code in sorted(cb.items(), key=lambda x: (len(x[1]), x[0])): values.append(ch) l = len(code) if l not in length_count: length_count[l] = 0 length_count[l] += 1 if last_l: renumbered <<= (l - last_l) canonical[ch] = '{0:0{width}b}'.format(renumbered, width=l) s = C_ESCAPES.get(ch, ch) print("//", ord(ch), s, counts[ch], canonical[ch], renumbered) renumbered += 1 last_l = l lengths = bytearray() print("// length count", length_count) for i in range(1, max(length_count) + 2): lengths.append(length_count.get(i, 0)) print("// values", values, "lengths", len(lengths), lengths) print("// estimated total memory size", len(lengths) + 2*len(values) + sum(len(cb[u]) for u in all_strings_concat)) print("//", values, lengths) values_type = "uint16_t" if max(ord(u) for u in values) > 255 else "uint8_t" max_translation_encoded_length = max(len(translation.encode("utf-8")) for original,translation in translations) with open(compression_filename, "w") as f: f.write("const uint8_t lengths[] = {{ {} }};\n".format(", ".join(map(str, lengths)))) f.write("const {} values[] = {{ {} }};\n".format(values_type, ", ".join(str(ord(u)) for u in values))) f.write("#define compress_max_length_bits ({})\n".format(max_translation_encoded_length.bit_length())) return values, lengths def decompress(encoding_table, encoded, encoded_length_bits): values, lengths = encoding_table dec = [] this_byte = 0 this_bit = 7 b = encoded[this_byte] bits = 0 for i in range(encoded_length_bits): bits <<= 1 if 0x80 & b: bits |= 1 b <<= 1 if this_bit == 0: this_bit = 7 this_byte += 1 if this_byte < len(encoded): b = encoded[this_byte] else: this_bit -= 1 length = bits i = 0 while i < length: bits = 0 bit_length = 0 max_code = lengths[0] searched_length = lengths[0] while True: bits <<= 1 if 0x80 & b: bits |= 1 b <<= 1 bit_length += 1 if this_bit == 0: this_bit = 7 this_byte += 1 if this_byte < len(encoded): b = encoded[this_byte] else: this_bit -= 1 if max_code > 0 and bits < max_code: #print('{0:0{width}b}'.format(bits, width=bit_length)) break max_code = (max_code << 1) + lengths[bit_length] searched_length += lengths[bit_length] v = values[searched_length + bits - max_code] i += len(v.encode('utf-8')) dec.append(v) return ''.join(dec) def compress(encoding_table, decompressed, encoded_length_bits, len_translation_encoded): if not isinstance(decompressed, str): raise TypeError() values, lengths = encoding_table enc = bytearray(len(decompressed) * 3) #print(decompressed) #print(lengths) current_bit = 7 current_byte = 0 code = len_translation_encoded bits = encoded_length_bits+1 for i in range(bits - 1, 0, -1): if len_translation_encoded & (1 << (i - 1)): enc[current_byte] |= 1 << current_bit if current_bit == 0: current_bit = 7 #print("packed {0:0{width}b}".format(enc[current_byte], width=8)) current_byte += 1 else: current_bit -= 1 for c in decompressed: #print() #print("char", c, values.index(c)) start = 0 end = lengths[0] bits = 1 compressed = None code = 0 while compressed is None: s = start e = end #print("{0:0{width}b}".format(code, width=bits)) # Binary search! while e > s: midpoint = (s + e) // 2 #print(s, e, midpoint) if values[midpoint] == c: compressed = code + (midpoint - start) #print("found {0:0{width}b}".format(compressed, width=bits)) break elif c < values[midpoint]: e = midpoint else: s = midpoint + 1 code += end - start code <<= 1 start = end end += lengths[bits] bits += 1 #print("next bit", bits) for i in range(bits - 1, 0, -1): if compressed & (1 << (i - 1)): enc[current_byte] |= 1 << current_bit if current_bit == 0: current_bit = 7 #print("packed {0:0{width}b}".format(enc[current_byte], width=8)) current_byte += 1 else: current_bit -= 1 if current_bit != 7: current_byte += 1 return enc[:current_byte] def qstr_escape(qst): def esc_char(m): c = ord(m.group(0)) try: name = codepoint2name[c] except KeyError: name = '0x%02x' % c return "_" + name + '_' return re.sub(r'[^A-Za-z0-9_]', esc_char, qst) def parse_input_headers(infiles): # read the qstrs in from the input files qcfgs = {} qstrs = {} i18ns = set() for infile in infiles: with open(infile, 'rt') as f: for line in f: line = line.strip() # is this a config line? match = re.match(r'^QCFG\((.+), (.+)\)', line) if match: value = match.group(2) if value[0] == '(' and value[-1] == ')': # strip parenthesis from config value value = value[1:-1] qcfgs[match.group(1)] = value continue match = re.match(r'^TRANSLATE\("(.*)"\)$', line) if match: i18ns.add(match.group(1)) continue # is this a QSTR line? match = re.match(r'^Q\((.*)\)$', line) if not match: continue # get the qstr value qstr = match.group(1) # special case to specify control characters if qstr == '\\n': qstr = '\n' # work out the corresponding qstr name ident = qstr_escape(qstr) # don't add duplicates if ident in qstrs: continue # add the qstr to the list, with order number to retain original order in file order = len(qstrs) # but put special method names like __add__ at the top of list, so # that their id's fit into a byte if ident == "": # Sort empty qstr above all still order = -200000 elif ident == "__dir__": # Put __dir__ after empty qstr for builtin dir() to work order = -190000 elif ident.startswith("__"): order -= 100000 qstrs[ident] = (order, ident, qstr) if not qcfgs and qstrs: sys.stderr.write("ERROR: Empty preprocessor output - check for errors above\n") sys.exit(1) return qcfgs, qstrs, i18ns def make_bytes(cfg_bytes_len, cfg_bytes_hash, qstr): qbytes = bytes_cons(qstr, 'utf8') qlen = len(qbytes) qhash = compute_hash(qbytes, cfg_bytes_hash) if all(32 <= ord(c) <= 126 and c != '\\' and c != '"' for c in qstr): # qstr is all printable ASCII so render it as-is (for easier debugging) qdata = qstr else: # qstr contains non-printable codes so render entire thing as hex pairs qdata = ''.join(('\\x%02x' % b) for b in qbytes) if qlen >= (1 << (8 * cfg_bytes_len)): print('qstr is too long:', qstr) assert False qlen_str = ('\\x%02x' * cfg_bytes_len) % tuple(((qlen >> (8 * i)) & 0xff) for i in range(cfg_bytes_len)) qhash_str = ('\\x%02x' * cfg_bytes_hash) % tuple(((qhash >> (8 * i)) & 0xff) for i in range(cfg_bytes_hash)) return '(const byte*)"%s%s" "%s"' % (qhash_str, qlen_str, qdata) def print_qstr_data(encoding_table, qcfgs, qstrs, i18ns): # get config variables cfg_bytes_len = int(qcfgs['BYTES_IN_LEN']) cfg_bytes_hash = int(qcfgs['BYTES_IN_HASH']) # print out the starter of the generated C header file print('// This file was automatically generated by makeqstrdata.py') print('') # add NULL qstr with no hash or data print('QDEF(MP_QSTR_NULL, (const byte*)"%s%s" "")' % ('\\x00' * cfg_bytes_hash, '\\x00' * cfg_bytes_len)) total_qstr_size = 0 total_qstr_compressed_size = 0 # go through each qstr and print it out for order, ident, qstr in sorted(qstrs.values(), key=lambda x: x[0]): qbytes = make_bytes(cfg_bytes_len, cfg_bytes_hash, qstr) print('QDEF(MP_QSTR_%s, %s)' % (ident, qbytes)) total_qstr_size += len(qstr) total_text_size = 0 total_text_compressed_size = 0 max_translation_encoded_length = max(len(translation.encode("utf-8")) for original, translation in i18ns) encoded_length_bits = max_translation_encoded_length.bit_length() for original, translation in i18ns: translation_encoded = translation.encode("utf-8") compressed = compress(encoding_table, translation, encoded_length_bits, len(translation_encoded)) total_text_compressed_size += len(compressed) decompressed = decompress(encoding_table, compressed, encoded_length_bits) assert decompressed == translation for c in C_ESCAPES: decompressed = decompressed.replace(c, C_ESCAPES[c]) print("TRANSLATION(\"{}\", {}) // {}".format(original, ", ".join(["{:d}".format(x) for x in compressed]), decompressed)) total_text_size += len(translation.encode("utf-8")) print() print("// {} bytes worth of qstr".format(total_qstr_size)) print("// {} bytes worth of translations".format(total_text_size)) print("// {} bytes worth of translations compressed".format(total_text_compressed_size)) print("// {} bytes saved".format(total_text_size - total_text_compressed_size)) def print_qstr_enums(qstrs): # print out the starter of the generated C header file print('// This file was automatically generated by makeqstrdata.py') print('') # add NULL qstr with no hash or data print('QENUM(MP_QSTR_NULL)') # go through each qstr and print it out for order, ident, qstr in sorted(qstrs.values(), key=lambda x: x[0]): print('QENUM(MP_QSTR_%s)' % (ident,)) if __name__ == "__main__": import argparse parser = argparse.ArgumentParser(description='Process QSTR definitions into headers for compilation') parser.add_argument('infiles', metavar='N', type=str, nargs='+', help='an integer for the accumulator') parser.add_argument('--translation', default=None, type=str, help='translations for i18n() items') parser.add_argument('--compression_filename', default=None, type=str, help='header for compression info') args = parser.parse_args() qcfgs, qstrs, i18ns = parse_input_headers(args.infiles) if args.translation: i18ns = sorted(i18ns) translations = translate(args.translation, i18ns) encoding_table = compute_huffman_coding(translations, qstrs, args.compression_filename) print_qstr_data(encoding_table, qcfgs, qstrs, translations) else: print_qstr_enums(qstrs)