#!/usr/bin/env python # # Copyright 2012 the V8 project authors. All rights reserved. # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are # met: # # * Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # * Redistributions in binary form must reproduce the above # copyright notice, this list of conditions and the following # disclaimer in the documentation and/or other materials provided # with the distribution. # * Neither the name of Google Inc. nor the names of its # contributors may be used to endorse or promote products derived # from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. # This is a utility for converting JavaScript source code into C-style # char arrays. It is used for embedded JavaScript code in the V8 # library. import os, re, sys, string import optparse import jsmin import bz2 import textwrap class Error(Exception): def __init__(self, msg): Exception.__init__(self, msg) def ToCArray(byte_sequence): result = [] for chr in byte_sequence: result.append(str(ord(chr))) joined = ", ".join(result) return textwrap.fill(joined, 80) def RemoveCommentsAndTrailingWhitespace(lines): lines = re.sub(r'//.*\n', '\n', lines) # end-of-line comments lines = re.sub(re.compile(r'/\*.*?\*/', re.DOTALL), '', lines) # comments. lines = re.sub(r'\s+\n+', '\n', lines) # trailing whitespace return lines def ReadFile(filename): file = open(filename, "rt") try: lines = file.read() finally: file.close() return lines EVAL_PATTERN = re.compile(r'\beval\s*\(') WITH_PATTERN = re.compile(r'\bwith\s*\(') def Validate(lines): # Because of simplified context setup, eval and with is not # allowed in the natives files. if EVAL_PATTERN.search(lines): raise Error("Eval disallowed in natives.") if WITH_PATTERN.search(lines): raise Error("With statements disallowed in natives.") # Pass lines through unchanged. return lines def ExpandConstants(lines, constants): for key, value in constants: lines = key.sub(str(value), lines) return lines def ExpandMacroDefinition(lines, pos, name_pattern, macro, expander): pattern_match = name_pattern.search(lines, pos) while pattern_match is not None: # Scan over the arguments height = 1 start = pattern_match.start() end = pattern_match.end() assert lines[end - 1] == '(' last_match = end arg_index = [0] # Wrap state into array, to work around Python "scoping" mapping = { } def add_arg(str): # Remember to expand recursively in the arguments replacement = expander(str.strip()) mapping[macro.args[arg_index[0]]] = replacement arg_index[0] += 1 while end < len(lines) and height > 0: # We don't count commas at higher nesting levels. if lines[end] == ',' and height == 1: add_arg(lines[last_match:end]) last_match = end + 1 elif lines[end] in ['(', '{', '[']: height = height + 1 elif lines[end] in [')', '}', ']']: height = height - 1 end = end + 1 # Remember to add the last match. add_arg(lines[last_match:end-1]) result = macro.expand(mapping) # Replace the occurrence of the macro with the expansion lines = lines[:start] + result + lines[end:] pattern_match = name_pattern.search(lines, start + len(result)) return lines def ExpandMacros(lines, macros): # We allow macros to depend on the previously declared macros, but # we don't allow self-dependecies or recursion. for name_pattern, macro in reversed(macros): def expander(s): return ExpandMacros(s, macros) lines = ExpandMacroDefinition(lines, 0, name_pattern, macro, expander) return lines class TextMacro: def __init__(self, args, body): self.args = args self.body = body def expand(self, mapping): result = self.body for key, value in mapping.items(): result = result.replace(key, value) return result class PythonMacro: def __init__(self, args, fun): self.args = args self.fun = fun def expand(self, mapping): args = [] for arg in self.args: args.append(mapping[arg]) return str(self.fun(*args)) CONST_PATTERN = re.compile(r'^const\s+([a-zA-Z0-9_]+)\s*=\s*([^;]*);$') MACRO_PATTERN = re.compile(r'^macro\s+([a-zA-Z0-9_]+)\s*\(([^)]*)\)\s*=\s*([^;]*);$') PYTHON_MACRO_PATTERN = re.compile(r'^python\s+macro\s+([a-zA-Z0-9_]+)\s*\(([^)]*)\)\s*=\s*([^;]*);$') def ReadMacros(lines): constants = [] macros = [] for line in lines.split('\n'): hash = line.find('#') if hash != -1: line = line[:hash] line = line.strip() if len(line) is 0: continue const_match = CONST_PATTERN.match(line) if const_match: name = const_match.group(1) value = const_match.group(2).strip() constants.append((re.compile("\\b%s\\b" % name), value)) else: macro_match = MACRO_PATTERN.match(line) if macro_match: name = macro_match.group(1) args = [match.strip() for match in macro_match.group(2).split(',')] body = macro_match.group(3).strip() macros.append((re.compile("\\b%s\\(" % name), TextMacro(args, body))) else: python_match = PYTHON_MACRO_PATTERN.match(line) if python_match: name = python_match.group(1) args = [match.strip() for match in python_match.group(2).split(',')] body = python_match.group(3).strip() fun = eval("lambda " + ",".join(args) + ': ' + body) macros.append((re.compile("\\b%s\\(" % name), PythonMacro(args, fun))) else: raise Error("Illegal line: " + line) return (constants, macros) INLINE_MACRO_PATTERN = re.compile(r'macro\s+([a-zA-Z0-9_]+)\s*\(([^)]*)\)\s*\n') INLINE_MACRO_END_PATTERN = re.compile(r'endmacro\s*\n') def ExpandInlineMacros(lines): pos = 0 while True: macro_match = INLINE_MACRO_PATTERN.search(lines, pos) if macro_match is None: # no more macros return lines name = macro_match.group(1) args = [match.strip() for match in macro_match.group(2).split(',')] end_macro_match = INLINE_MACRO_END_PATTERN.search(lines, macro_match.end()); if end_macro_match is None: raise Error("Macro %s unclosed" % name) body = lines[macro_match.end():end_macro_match.start()] # remove macro definition lines = lines[:macro_match.start()] + lines[end_macro_match.end():] name_pattern = re.compile("\\b%s\\(" % name) macro = TextMacro(args, body) # advance position to where the macro defintion was pos = macro_match.start() def non_expander(s): return s lines = ExpandMacroDefinition(lines, pos, name_pattern, macro, non_expander) INLINE_CONSTANT_PATTERN = re.compile(r'const\s+([a-zA-Z0-9_]+)\s*=\s*([^;\n]+)[;\n]') def ExpandInlineConstants(lines): pos = 0 while True: const_match = INLINE_CONSTANT_PATTERN.search(lines, pos) if const_match is None: # no more constants return lines name = const_match.group(1) replacement = const_match.group(2) name_pattern = re.compile("\\b%s\\b" % name) # remove constant definition and replace lines = (lines[:const_match.start()] + re.sub(name_pattern, replacement, lines[const_match.end():])) # advance position to where the constant defintion was pos = const_match.start() HEADER_TEMPLATE = """\ // Copyright 2011 Google Inc. All Rights Reserved. // This file was generated from .js source files by GYP. If you // want to make changes to this file you should either change the // javascript source files or the GYP script. #include "src/v8.h" #include "src/natives.h" #include "src/utils.h" namespace v8 { namespace internal { %(sources_declaration)s\ %(raw_sources_declaration)s\ template <> int NativesCollection<%(type)s>::GetBuiltinsCount() { return %(builtin_count)i; } template <> int NativesCollection<%(type)s>::GetDebuggerCount() { return %(debugger_count)i; } template <> int NativesCollection<%(type)s>::GetIndex(const char* name) { %(get_index_cases)s\ return -1; } template <> int NativesCollection<%(type)s>::GetRawScriptsSize() { return %(raw_total_length)i; } template <> Vector NativesCollection<%(type)s>::GetRawScriptSource(int index) { %(get_raw_script_source_cases)s\ return Vector("", 0); } template <> Vector NativesCollection<%(type)s>::GetScriptName(int index) { %(get_script_name_cases)s\ return Vector("", 0); } template <> Vector NativesCollection<%(type)s>::GetScriptsSource() { return Vector(sources, %(total_length)i); } template <> void NativesCollection<%(type)s>::SetRawScriptsSource(Vector raw_source) { DCHECK(%(raw_total_length)i == raw_source.length()); raw_sources = raw_source.start(); } } // internal } // v8 """ SOURCES_DECLARATION = """\ static const byte sources[] = { %s }; """ RAW_SOURCES_COMPRESSION_DECLARATION = """\ static const char* raw_sources = NULL; """ RAW_SOURCES_DECLARATION = """\ static const char* raw_sources = reinterpret_cast(sources); """ GET_INDEX_CASE = """\ if (strcmp(name, "%(id)s") == 0) return %(i)i; """ GET_RAW_SCRIPT_SOURCE_CASE = """\ if (index == %(i)i) return Vector(raw_sources + %(offset)i, %(raw_length)i); """ GET_SCRIPT_NAME_CASE = """\ if (index == %(i)i) return Vector("%(name)s", %(length)i); """ def BuildFilterChain(macro_filename): """Build the chain of filter functions to be applied to the sources. Args: macro_filename: Name of the macro file, if any. Returns: A function (string -> string) that reads a source file and processes it. """ filter_chain = [ReadFile] if macro_filename: (consts, macros) = ReadMacros(ReadFile(macro_filename)) filter_chain.append(lambda l: ExpandConstants(l, consts)) filter_chain.append(lambda l: ExpandMacros(l, macros)) filter_chain.extend([ RemoveCommentsAndTrailingWhitespace, ExpandInlineMacros, ExpandInlineConstants, Validate, jsmin.JavaScriptMinifier().JSMinify ]) def chain(f1, f2): return lambda x: f2(f1(x)) return reduce(chain, filter_chain) class Sources: def __init__(self): self.names = [] self.modules = [] self.is_debugger_id = [] def IsDebuggerFile(filename): return filename.endswith("-debugger.js") def IsMacroFile(filename): return filename.endswith("macros.py") def PrepareSources(source_files): """Read, prepare and assemble the list of source files. Args: sources: List of Javascript-ish source files. A file named macros.py will be treated as a list of macros. Returns: An instance of Sources. """ macro_file = None macro_files = filter(IsMacroFile, source_files) assert len(macro_files) in [0, 1] if macro_files: source_files.remove(macro_files[0]) macro_file = macro_files[0] filters = BuildFilterChain(macro_file) # Sort 'debugger' sources first. source_files = sorted(source_files, lambda l,r: IsDebuggerFile(r) - IsDebuggerFile(l)) result = Sources() for source in source_files: try: lines = filters(source) except Error as e: raise Error("In file %s:\n%s" % (source, str(e))) result.modules.append(lines); is_debugger = IsDebuggerFile(source) result.is_debugger_id.append(is_debugger); name = os.path.basename(source)[:-3] result.names.append(name if not is_debugger else name[:-9]); return result def BuildMetadata(sources, source_bytes, native_type): """Build the meta data required to generate a libaries file. Args: sources: A Sources instance with the prepared sources. source_bytes: A list of source bytes. (The concatenation of all sources; might be compressed.) native_type: The parameter for the NativesCollection template. Returns: A dictionary for use with HEADER_TEMPLATE. """ total_length = len(source_bytes) raw_sources = "".join(sources.modules) # The sources are expected to be ASCII-only. assert not filter(lambda value: ord(value) >= 128, raw_sources) # Loop over modules and build up indices into the source blob: get_index_cases = [] get_script_name_cases = [] get_raw_script_source_cases = [] offset = 0 for i in xrange(len(sources.modules)): native_name = "native %s.js" % sources.names[i] d = { "i": i, "id": sources.names[i], "name": native_name, "length": len(native_name), "offset": offset, "raw_length": len(sources.modules[i]), } get_index_cases.append(GET_INDEX_CASE % d) get_script_name_cases.append(GET_SCRIPT_NAME_CASE % d) get_raw_script_source_cases.append(GET_RAW_SCRIPT_SOURCE_CASE % d) offset += len(sources.modules[i]) assert offset == len(raw_sources) # If we have the raw sources we can declare them accordingly. have_raw_sources = source_bytes == raw_sources raw_sources_declaration = (RAW_SOURCES_DECLARATION if have_raw_sources else RAW_SOURCES_COMPRESSION_DECLARATION) metadata = { "builtin_count": len(sources.modules), "debugger_count": sum(sources.is_debugger_id), "sources_declaration": SOURCES_DECLARATION % ToCArray(source_bytes), "raw_sources_declaration": raw_sources_declaration, "raw_total_length": sum(map(len, sources.modules)), "total_length": total_length, "get_index_cases": "".join(get_index_cases), "get_raw_script_source_cases": "".join(get_raw_script_source_cases), "get_script_name_cases": "".join(get_script_name_cases), "type": native_type, } return metadata def PutInt(blob_file, value): assert(value >= 0 and value < (1 << 28)) if (value < 1 << 6): size = 1 elif (value < 1 << 14): size = 2 elif (value < 1 << 22): size = 3 else: size = 4 value_with_length = (value << 2) | (size - 1) byte_sequence = bytearray() for i in xrange(size): byte_sequence.append(value_with_length & 255) value_with_length >>= 8; blob_file.write(byte_sequence) def PutStr(blob_file, value): PutInt(blob_file, len(value)); blob_file.write(value); def WriteStartupBlob(sources, startup_blob): """Write a startup blob, as expected by V8 Initialize ... TODO(vogelheim): Add proper method name. Args: sources: A Sources instance with the prepared sources. startup_blob_file: Name of file to write the blob to. """ output = open(startup_blob, "wb") debug_sources = sum(sources.is_debugger_id); PutInt(output, debug_sources) for i in xrange(debug_sources): PutStr(output, sources.names[i]); PutStr(output, sources.modules[i]); PutInt(output, len(sources.names) - debug_sources) for i in xrange(debug_sources, len(sources.names)): PutStr(output, sources.names[i]); PutStr(output, sources.modules[i]); output.close() def JS2C(source, target, native_type, raw_file, startup_blob): sources = PrepareSources(source) sources_bytes = "".join(sources.modules) metadata = BuildMetadata(sources, sources_bytes, native_type) # Optionally emit raw file. if raw_file: output = open(raw_file, "w") output.write(sources_bytes) output.close() if startup_blob: WriteStartupBlob(sources, startup_blob); # Emit resulting source file. output = open(target, "w") output.write(HEADER_TEMPLATE % metadata) output.close() def main(): parser = optparse.OptionParser() parser.add_option("--raw", action="store", help="file to write the processed sources array to.") parser.add_option("--startup_blob", action="store", help="file to write the startup blob to.") parser.set_usage("""js2c out.cc type sources.js ... out.cc: C code to be generated. type: type parameter for NativesCollection template. sources.js: JS internal sources or macros.py.""") (options, args) = parser.parse_args() JS2C(args[2:], args[0], args[1], options.raw, options.startup_blob) if __name__ == "__main__": main()