#!/usr/bin/env python # Copyright 2018 the V8 project authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. import os import sys import subprocess import re import math INPUT_PATH = "src/parsing/keywords.txt" OUTPUT_PATH = "src/parsing/keywords-gen.h" # TODO(leszeks): Trimming seems to regress performance, investigate. TRIM_CHAR_TABLE = False def next_power_of_2(x): return 1 if x == 0 else 2**int(math.ceil(math.log(x, 2))) def call_with_input(cmd, input_string=""): p = subprocess.Popen(cmd, stdin=subprocess.PIPE, stdout=subprocess.PIPE) stdout, _ = p.communicate(input_string) retcode = p.wait() if retcode != 0: raise subprocess.CalledProcessError(retcode, cmd) return stdout def checked_sub(pattern, sub, out, count=1, flags=0): out, n = re.subn(pattern, sub, out, flags=flags) if n != count: raise Exception("Didn't get exactly %d replacement(s) for pattern: %s" % (count, pattern)) return out def change_sizet_to_int(out): # Literal buffer lengths are given as ints, not size_t return checked_sub(r'\bsize_t\b', 'int', out, count=4) def drop_line_directives(out): # #line causes gcov issue, so drop it return re.sub(r'^#\s*line .*$\n', '', out, flags=re.MULTILINE) def trim_and_dcheck_char_table(out): # Potential keyword strings are known to be lowercase ascii, so chop off the # rest of the table and mask out the char reads_re = re.compile( r'asso_values\[static_cast\(str\[(\d+)\]\)\]') dchecks = [] for str_read in reads_re.finditer(out): dchecks.append("DCHECK_LT(str[%d], 128);" % int(str_read.group(1))) if TRIM_CHAR_TABLE: out = checked_sub( r'static const unsigned char asso_values\[\]\s*=\s*\{(\s*\d+\s*,){96}', "".join(dchecks) + r'static const unsigned char asso_values[32] = {', out, flags=re.MULTILINE) out = checked_sub( reads_re.pattern, r'asso_values[static_cast(str[(\1)]&31)]', out, count=len(dchecks), flags=re.MULTILINE) else: out = checked_sub( r'static const unsigned char asso_values\[\]\s*=\s*\{', "".join(dchecks) + r'static const unsigned char asso_values[128] = {', out, flags=re.MULTILINE) return out def use_isinrange(out): # Our IsInRange method is more efficient than checking for min/max length return checked_sub(r'if \(len <= MAX_WORD_LENGTH && len >= MIN_WORD_LENGTH\)', r'if (base::IsInRange(len, MIN_WORD_LENGTH, ' + r'MAX_WORD_LENGTH))', out) def pad_tables(out): # We don't want to compare against the max hash value, so pad the tables up # to a power of two and mask the hash. # First get the new size max_hash_value = int(re.search(r'MAX_HASH_VALUE\s*=\s*(\d+)', out).group(1)) old_table_length = max_hash_value + 1 new_table_length = next_power_of_2(old_table_length) table_padding_len = new_table_length - old_table_length # Pad the length table. single_lengthtable_entry = r'\d+' out = checked_sub( r""" static\ const\ unsigned\ char\ kPerfectKeywordLengthTable\[\]\s*=\s*\{ ( \s*%(single_lengthtable_entry)s\s* (?:,\s*%(single_lengthtable_entry)s\s*)* ) \} """ % {'single_lengthtable_entry': single_lengthtable_entry}, r'static const unsigned char kPerfectKeywordLengthTable[%d] = { \1 %s }' % (new_table_length, "".join([',0'] * table_padding_len)), out, flags=re.MULTILINE | re.VERBOSE) # Pad the word list. single_wordlist_entry = r""" (?:\#line\ \d+\ ".*"$\s*)? \{\s*"[a-z]*"\s*,\s*Token::[A-Z_]+\} """ out = checked_sub( r""" static\ const\ struct\ PerfectKeywordHashTableEntry\ kPerfectKeywordHashTable\[\]\s*=\s*\{ ( \s*%(single_wordlist_entry)s\s* (?:,\s*%(single_wordlist_entry)s\s*)* ) \} """ % {'single_wordlist_entry': single_wordlist_entry}, r'static const struct PerfectKeywordHashTableEntry kPerfectKeywordHashTable[%d] = {\1 %s }' % (new_table_length, "".join( [',{"",Token::IDENTIFIER}'] * table_padding_len)), out, flags=re.MULTILINE | re.VERBOSE) # Mask the hash and replace the range check with DCHECKs. out = checked_sub(r'Hash\s*\(\s*str,\s*len\s*\)', r'Hash(str, len)&0x%x' % (new_table_length - 1), out) out = checked_sub( r'if \(key <= MAX_HASH_VALUE\)', r'DCHECK_LT(key, arraysize(kPerfectKeywordLengthTable));DCHECK_LT(key, arraysize(kPerfectKeywordHashTable));', out) return out def return_token(out): # We want to return the actual token rather than the table entry. # Change the return type of the function. Make it inline too. out = checked_sub( r'const\s*struct\s*PerfectKeywordHashTableEntry\s*\*\s*((?:PerfectKeywordHash::)?GetToken)', r'inline Token::Value \1', out, count=2) # Change the return value when the keyword is found out = checked_sub(r'return &kPerfectKeywordHashTable\[key\];', r'return kPerfectKeywordHashTable[key].value;', out) # Change the return value when the keyword is not found out = checked_sub(r'return 0;', r'return Token::IDENTIFIER;', out) return out def memcmp_to_while(out): # It's faster to loop over the keyword with a while loop than calling memcmp. # Careful, this replacement is quite flaky, because otherwise the regex is # unreadable. return checked_sub( re.escape("if (*str == *s && !memcmp (str + 1, s + 1, len - 1))") + r"\s*" + re.escape("return kPerfectKeywordHashTable[key].value;"), """ while(*s!=0) { if (*s++ != *str++) return Token::IDENTIFIER; } return kPerfectKeywordHashTable[key].value; """, out, flags=re.MULTILINE) def wrap_namespace(out): return """// Copyright 2018 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // This file is automatically generated by gen-keywords-gen-h.py and should not // be modified manually. #ifndef V8_PARSING_KEYWORDS_GEN_H_ #define V8_PARSING_KEYWORDS_GEN_H_ #include "src/parsing/token.h" namespace v8 { namespace internal { %s } // namespace internal } // namespace v8 #endif // V8_PARSING_KEYWORDS_GEN_H_ """ % (out) def trim_character_set_warning(out): # gperf generates an error message that is too large, trim it return out.replace( '"gperf generated tables don\'t work with this execution character set. Please report a bug to ."', '"gperf generated tables don\'t work with this execution character set."\\\n// If you see this error, please report a bug to .' ) def main(): try: script_dir = os.path.dirname(sys.argv[0]) root_dir = os.path.join(script_dir, '..') out = subprocess.check_output(["gperf", "-m100", INPUT_PATH], cwd=root_dir) # And now some munging of the generated file. out = change_sizet_to_int(out) out = drop_line_directives(out) out = trim_and_dcheck_char_table(out) out = use_isinrange(out) out = pad_tables(out) out = return_token(out) out = memcmp_to_while(out) out = wrap_namespace(out) out = trim_character_set_warning(out) # Final formatting. clang_format_path = os.path.join(root_dir, 'third_party/depot_tools/clang-format') out = call_with_input([clang_format_path], out) with open(os.path.join(root_dir, OUTPUT_PATH), 'w') as f: f.write(out) return 0 except subprocess.CalledProcessError as e: sys.stderr.write("Error calling '{}'\n".format(" ".join(e.cmd))) return e.returncode if __name__ == '__main__': sys.exit(main())