view contrib/python-zstandard/make_cffi.py @ 46472:98e39f04d60e

upgrade: implement partial upgrade for upgrading persistent-nodemap Upgrading repositories to use persistent nodemap should be fast and easy as it requires only two things: 1) Updating the requirements 2) Writing a persistent-nodemap on disk For both of the steps above, we don't need to edit existing revlogs. This patch makes upgrade only do the above mentioned two steps if we are only upgarding to use persistent-nodemap feature. Since `nodemap.persist_nodemap()` assumes that there exists a nodemap file for the given revlog if we are trying to call it, this patch adds `force` argument to create a file if does not exist which is true in our upgrade case. The test changes demonstrate that we no longer write nodemap files for manifest after upgrade which I think is desirable. Differential Revision: https://phab.mercurial-scm.org/D9936
author Pulkit Goyal <7895pulkit@gmail.com>
date Mon, 01 Feb 2021 00:02:00 +0530
parents 89a2afe31e82
children 6000f5b25c9b
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# Copyright (c) 2016-present, Gregory Szorc
# All rights reserved.
#
# This software may be modified and distributed under the terms
# of the BSD license. See the LICENSE file for details.

from __future__ import absolute_import

import cffi
import distutils.ccompiler
import os
import re
import subprocess
import tempfile


HERE = os.path.abspath(os.path.dirname(__file__))

SOURCES = [
    "zstd/%s" % p
    for p in (
        "common/debug.c",
        "common/entropy_common.c",
        "common/error_private.c",
        "common/fse_decompress.c",
        "common/pool.c",
        "common/threading.c",
        "common/xxhash.c",
        "common/zstd_common.c",
        "compress/fse_compress.c",
        "compress/hist.c",
        "compress/huf_compress.c",
        "compress/zstd_compress.c",
        "compress/zstd_compress_literals.c",
        "compress/zstd_compress_sequences.c",
        "compress/zstd_double_fast.c",
        "compress/zstd_fast.c",
        "compress/zstd_lazy.c",
        "compress/zstd_ldm.c",
        "compress/zstd_opt.c",
        "compress/zstdmt_compress.c",
        "decompress/huf_decompress.c",
        "decompress/zstd_ddict.c",
        "decompress/zstd_decompress.c",
        "decompress/zstd_decompress_block.c",
        "dictBuilder/cover.c",
        "dictBuilder/fastcover.c",
        "dictBuilder/divsufsort.c",
        "dictBuilder/zdict.c",
    )
]

# Headers whose preprocessed output will be fed into cdef().
HEADERS = [
    os.path.join(HERE, "zstd", *p)
    for p in (
        ("zstd.h",),
        ("dictBuilder", "zdict.h"),
    )
]

INCLUDE_DIRS = [
    os.path.join(HERE, d)
    for d in (
        "zstd",
        "zstd/common",
        "zstd/compress",
        "zstd/decompress",
        "zstd/dictBuilder",
    )
]

# cffi can't parse some of the primitives in zstd.h. So we invoke the
# preprocessor and feed its output into cffi.
compiler = distutils.ccompiler.new_compiler()

# Needed for MSVC.
if hasattr(compiler, "initialize"):
    compiler.initialize()

# Distutils doesn't set compiler.preprocessor, so invoke the preprocessor
# manually.
if compiler.compiler_type == "unix":
    args = list(compiler.executables["compiler"])
    args.extend(
        [
            "-E",
            "-DZSTD_STATIC_LINKING_ONLY",
            "-DZDICT_STATIC_LINKING_ONLY",
        ]
    )
elif compiler.compiler_type == "msvc":
    args = [compiler.cc]
    args.extend(
        [
            "/EP",
            "/DZSTD_STATIC_LINKING_ONLY",
            "/DZDICT_STATIC_LINKING_ONLY",
        ]
    )
else:
    raise Exception("unsupported compiler type: %s" % compiler.compiler_type)


def preprocess(path):
    with open(path, "rb") as fh:
        lines = []
        it = iter(fh)

        for l in it:
            # zstd.h includes <stddef.h>, which is also included by cffi's
            # boilerplate. This can lead to duplicate declarations. So we strip
            # this include from the preprocessor invocation.
            #
            # The same things happens for including zstd.h, so give it the same
            # treatment.
            #
            # We define ZSTD_STATIC_LINKING_ONLY, which is redundant with the inline
            # #define in zstdmt_compress.h and results in a compiler warning. So drop
            # the inline #define.
            if l.startswith(
                (
                    b"#include <stddef.h>",
                    b'#include "zstd.h"',
                    b"#define ZSTD_STATIC_LINKING_ONLY",
                )
            ):
                continue

            # The preprocessor environment on Windows doesn't define include
            # paths, so the #include of limits.h fails. We work around this
            # by removing that import and defining INT_MAX ourselves. This is
            # a bit hacky. But it gets the job done.
            # TODO make limits.h work on Windows so we ensure INT_MAX is
            # correct.
            if l.startswith(b"#include <limits.h>"):
                l = b"#define INT_MAX 2147483647\n"

            # ZSTDLIB_API may not be defined if we dropped zstd.h. It isn't
            # important so just filter it out.
            if l.startswith(b"ZSTDLIB_API"):
                l = l[len(b"ZSTDLIB_API ") :]

            lines.append(l)

    fd, input_file = tempfile.mkstemp(suffix=".h")
    os.write(fd, b"".join(lines))
    os.close(fd)

    try:
        env = dict(os.environ)
        if getattr(compiler, "_paths", None):
            env["PATH"] = compiler._paths
        process = subprocess.Popen(
            args + [input_file], stdout=subprocess.PIPE, env=env
        )
        output = process.communicate()[0]
        ret = process.poll()
        if ret:
            raise Exception("preprocessor exited with error")

        return output
    finally:
        os.unlink(input_file)


def normalize_output(output):
    lines = []
    for line in output.splitlines():
        # CFFI's parser doesn't like __attribute__ on UNIX compilers.
        if line.startswith(b'__attribute__ ((visibility ("default"))) '):
            line = line[len(b'__attribute__ ((visibility ("default"))) ') :]

        if line.startswith(b"__attribute__((deprecated("):
            continue
        elif b"__declspec(deprecated(" in line:
            continue

        lines.append(line)

    return b"\n".join(lines)


ffi = cffi.FFI()
# zstd.h uses a possible undefined MIN(). Define it until
# https://github.com/facebook/zstd/issues/976 is fixed.
# *_DISABLE_DEPRECATE_WARNINGS prevents the compiler from emitting a warning
# when cffi uses the function. Since we statically link against zstd, even
# if we use the deprecated functions it shouldn't be a huge problem.
ffi.set_source(
    "_zstd_cffi",
    """
#define MIN(a,b) ((a)<(b) ? (a) : (b))
#define ZSTD_STATIC_LINKING_ONLY
#include <zstd.h>
#define ZDICT_STATIC_LINKING_ONLY
#define ZDICT_DISABLE_DEPRECATE_WARNINGS
#include <zdict.h>
""",
    sources=SOURCES,
    include_dirs=INCLUDE_DIRS,
    extra_compile_args=["-DZSTD_MULTITHREAD"],
)

DEFINE = re.compile(b"^\\#define ([a-zA-Z0-9_]+) ")

sources = []

# Feed normalized preprocessor output for headers into the cdef parser.
for header in HEADERS:
    preprocessed = preprocess(header)
    sources.append(normalize_output(preprocessed))

    # #define's are effectively erased as part of going through preprocessor.
    # So perform a manual pass to re-add those to the cdef source.
    with open(header, "rb") as fh:
        for line in fh:
            line = line.strip()
            m = DEFINE.match(line)
            if not m:
                continue

            if m.group(1) == b"ZSTD_STATIC_LINKING_ONLY":
                continue

            # The parser doesn't like some constants with complex values.
            if m.group(1) in (b"ZSTD_LIB_VERSION", b"ZSTD_VERSION_STRING"):
                continue

            # The ... is magic syntax by the cdef parser to resolve the
            # value at compile time.
            sources.append(m.group(0) + b" ...")

cdeflines = b"\n".join(sources).splitlines()
cdeflines = [l for l in cdeflines if l.strip()]
ffi.cdef(b"\n".join(cdeflines).decode("latin1"))

if __name__ == "__main__":
    ffi.compile()