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007a7a25e5
Because this involves affecting the MSVC + Windows SDK packs, we need to do this for toolchain tasks as well as Firefox builds in a single pass. The MSVC + Windows SDK packs are altered to keep the original case instead of lowercasing everything (except .lib files), and contain an overlay file that we now automatically use from the WINSYSROOT. This requires adjusting some paths to match what the original case is, as well as removing everything related to the use of liblowercase, which conflicts with the use of the overlay file. People using liblowercase locally will still have a working setup as long as they don't set WINSYSROOT (it's new, so they won't have it), and don't have an overlay file in there (which they only would if they ran the new pack_vs.py). Differential Revision: https://phabricator.services.mozilla.com/D165596
224 lines
8.4 KiB
Python
224 lines
8.4 KiB
Python
# This Source Code Form is subject to the terms of the Mozilla Public
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# License, v. 2.0. If a copy of the MPL was not distributed with this
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# file, You can obtain one at http://mozilla.org/MPL/2.0/.
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import functools
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import os
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import shutil
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import subprocess
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import sys
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import buildconfig
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def relativize(path, base=None):
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# For absolute path in Unix builds, we need relative paths because
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# Windows programs run via Wine don't like these Unix absolute paths
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# (they look like command line arguments).
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if path.startswith("/"):
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return os.path.relpath(path, base)
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# For Windows absolute paths, we can just use the unmodified path.
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# And if the path starts with '-', it's a command line argument.
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if os.path.isabs(path) or path.startswith("-"):
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return path
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# Remaining case is relative paths, which may be relative to a different
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# directory (os.getcwd()) than the needed `base`, so we "rebase" it.
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return os.path.relpath(path, base)
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@functools.lru_cache(maxsize=None)
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def files_in(path):
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return {p.lower(): os.path.join(path, p) for p in os.listdir(path)}
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def search_path(paths, path):
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for p in paths:
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f = os.path.join(p, path)
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if os.path.isfile(f):
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return f
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# try an case-insensitive match
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maybe_match = files_in(p).get(path.lower())
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if maybe_match:
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return maybe_match
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raise RuntimeError(f"Cannot find {path}")
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# Filter-out -std= flag from the preprocessor command, as we're not preprocessing
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# C or C++, and the command would fail with the flag.
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def filter_preprocessor(cmd):
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prev = None
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for arg in cmd:
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if arg == "-Xclang":
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prev = arg
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continue
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if not arg.startswith("-std="):
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if prev:
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yield prev
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yield arg
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prev = None
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# Preprocess all the direct and indirect inputs of midl, and put all the
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# preprocessed inputs in the given `base` directory. Returns a tuple containing
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# the path of the main preprocessed input, and the modified flags to use instead
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# of the flags given as argument.
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def preprocess(base, input, flags):
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import argparse
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import re
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from collections import deque
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IMPORT_RE = re.compile('import\s*"([^"]+)";')
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parser = argparse.ArgumentParser()
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parser.add_argument("-I", action="append")
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parser.add_argument("-D", action="append")
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parser.add_argument("-acf")
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args, remainder = parser.parse_known_args(flags)
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preprocessor = (
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list(filter_preprocessor(buildconfig.substs["CXXCPP"]))
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# Ideally we'd use the real midl version, but querying it adds a
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# significant overhead to configure. In practice, the version number
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# doesn't make a difference at the moment.
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+ ["-D__midl=801"]
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+ [f"-D{d}" for d in args.D or ()]
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+ [f"-I{i}" for i in args.I or ()]
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)
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includes = ["."] + buildconfig.substs["INCLUDE"].split(";") + (args.I or [])
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seen = set()
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queue = deque([input])
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if args.acf:
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queue.append(args.acf)
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output = os.path.join(base, os.path.basename(input))
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while True:
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try:
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input = queue.popleft()
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except IndexError:
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break
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if os.path.basename(input) in seen:
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continue
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seen.add(os.path.basename(input))
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input = search_path(includes, input)
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# If there is a .acf file corresponding to the .idl we're processing,
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# we also want to preprocess that file because midl might look for it too.
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if input.lower().endswith(".idl"):
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try:
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acf = search_path(
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[os.path.dirname(input)], os.path.basename(input)[:-4] + ".acf"
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)
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if acf:
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queue.append(acf)
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except RuntimeError:
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pass
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command = preprocessor + [input]
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preprocessed = os.path.join(base, os.path.basename(input))
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subprocess.run(command, stdout=open(preprocessed, "wb"), check=True)
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# Read the resulting file, and search for imports, that we'll want to
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# preprocess as well.
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with open(preprocessed, "r") as fh:
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for line in fh:
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if not line.startswith("import"):
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continue
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m = IMPORT_RE.match(line)
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if not m:
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continue
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imp = m.group(1)
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queue.append(imp)
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flags = []
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# Add -I<base> first in the flags, so that midl resolves imports to the
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# preprocessed files we created.
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for i in [base] + (args.I or []):
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flags.extend(["-I", i])
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# Add the preprocessed acf file if one was given on the command line.
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if args.acf:
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flags.extend(["-acf", os.path.join(base, os.path.basename(args.acf))])
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flags.extend(remainder)
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return output, flags
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def midl(out, input, *flags):
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out.avoid_writing_to_file()
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midl_flags = buildconfig.substs["MIDL_FLAGS"]
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base = os.path.dirname(out.name) or "."
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tmpdir = None
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try:
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# If the build system is asking to not use the preprocessor to midl,
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# we need to do the preprocessing ourselves.
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if "-no_cpp" in midl_flags:
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# Normally, we'd use tempfile.TemporaryDirectory, but in this specific
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# case, we actually want a deterministic directory name, because it's
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# recorded in the code midl generates.
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tmpdir = os.path.join(base, os.path.basename(input) + ".tmp")
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os.makedirs(tmpdir, exist_ok=True)
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try:
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input, flags = preprocess(tmpdir, input, flags)
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except subprocess.CalledProcessError as e:
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return e.returncode
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midl = buildconfig.substs["MIDL"]
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wine = buildconfig.substs.get("WINE")
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if midl.lower().endswith(".exe") and wine:
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command = [wine, midl]
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else:
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command = [midl]
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command.extend(midl_flags)
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command.extend([relativize(f, base) for f in flags])
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command.append("-Oicf")
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command.append(relativize(input, base))
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print("Executing:", " ".join(command))
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result = subprocess.run(command, cwd=base)
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return result.returncode
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finally:
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if tmpdir:
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shutil.rmtree(tmpdir)
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# midl outputs dlldata to a single dlldata.c file by default. This prevents running
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# midl in parallel in the same directory for idl files that would generate dlldata.c
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# because of race conditions updating the file. Instead, we ask midl to create
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# separate files, and we merge them manually.
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def merge_dlldata(out, *inputs):
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inputs = [open(i) for i in inputs]
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read_a_line = [True] * len(inputs)
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while True:
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lines = [
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f.readline() if read_a_line[n] else lines[n] for n, f in enumerate(inputs)
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]
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unique_lines = set(lines)
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if len(unique_lines) == 1:
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# All the lines are identical
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if not lines[0]:
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break
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out.write(lines[0])
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read_a_line = [True] * len(inputs)
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elif (
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len(unique_lines) == 2
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and len([l for l in unique_lines if "#define" in l]) == 1
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):
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# Most lines are identical. When they aren't, it's typically because some
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# files have an extra #define that others don't. When that happens, we
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# print out the #define, and get a new input line from the files that had
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# a #define on the next iteration. We expect that next line to match what
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# the other files had on this iteration.
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# Note: we explicitly don't support the case where there are different
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# defines across different files, except when there's a different one
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# for each file, in which case it's handled further below.
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a = unique_lines.pop()
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if "#define" in a:
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out.write(a)
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else:
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out.write(unique_lines.pop())
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read_a_line = ["#define" in l for l in lines]
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elif len(unique_lines) != len(lines):
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# If for some reason, we don't get lines that are entirely different
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# from each other, we have some unexpected input.
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print(
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"Error while merging dlldata. Last lines read: {}".format(lines),
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file=sys.stderr,
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)
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return 1
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else:
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for line in lines:
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out.write(line)
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read_a_line = [True] * len(inputs)
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return 0
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