v8/tools/js2c.py
vogelheim@chromium.org 7b7bb25a24 Support external startup data in V8.
[Re-retry of r21696 and r21739]

If the embedder chooses, the 'natives' (library sources) and the
precompiled startup blob can be written to files during the build
process and handed over to V8 at startup. The main purpose would be
to reduce the size of the compiled binary for space constrained
platforms.

The build-time option is off by default. Nothing should change if
it's not enabled.

BUG=
R=jochen@chromium.org

Review URL: https://codereview.chromium.org/334913004

git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@21941 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-06-23 13:52:17 +00:00

557 lines
17 KiB
Python
Executable File

#!/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)
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<const char> NativesCollection<%(type)s>::GetRawScriptSource(int index) {
%(get_raw_script_source_cases)s\
return Vector<const char>("", 0);
}
template <>
Vector<const char> NativesCollection<%(type)s>::GetScriptName(int index) {
%(get_script_name_cases)s\
return Vector<const char>("", 0);
}
template <>
Vector<const byte> NativesCollection<%(type)s>::GetScriptsSource() {
return Vector<const byte>(sources, %(total_length)i);
}
template <>
void NativesCollection<%(type)s>::SetRawScriptsSource(Vector<const char> raw_source) {
ASSERT(%(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<const char*>(sources);
"""
GET_INDEX_CASE = """\
if (strcmp(name, "%(id)s") == 0) return %(i)i;
"""
GET_RAW_SCRIPT_SOURCE_CASE = """\
if (index == %(i)i) return Vector<const char>(raw_sources + %(offset)i, %(raw_length)i);
"""
GET_SCRIPT_NAME_CASE = """\
if (index == %(i)i) return Vector<const char>("%(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,
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 CompressMaybe(sources, compression_type):
"""Take the prepared sources and generate a sequence of bytes.
Args:
sources: A Sources instance with the prepared sourced.
compression_type: string, describing the desired compression.
Returns:
A sequence of bytes.
"""
sources_bytes = "".join(sources.modules)
if compression_type == "off":
return sources_bytes
elif compression_type == "bz2":
return bz2.compress(sources_bytes)
else:
raise Error("Unknown compression type %s." % compression_type)
def PutInt(blob_file, value):
assert(value >= 0 and value < (1 << 20))
size = 1 if (value < 1 << 6) else (2 if (value < 1 << 14) else 3)
value_with_length = (value << 2) | size
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, compression_type, raw_file, startup_blob):
sources = PrepareSources(source)
sources_bytes = CompressMaybe(sources, compression_type)
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 compression sources.js ...
out.cc: C code to be generated.
type: type parameter for NativesCollection template.
compression: type of compression used. [off|bz2]
sources.js: JS internal sources or macros.py.""")
(options, args) = parser.parse_args()
JS2C(args[3:], args[0], args[1], args[2], options.raw, options.startup_blob)
if __name__ == "__main__":
main()