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0452666d00
This adds a fallible factory method to create new NumberFormat instances. This allows us to report initialization errors at time of initialization, rather than when format is called, and remove internal checks in the implementation for successful initialization. The existing fluent code assumes that creating a NumberFormat instance always succeeds. This patch updates that code to handle failures. Differential Revision: https://phabricator.services.mozilla.com/D114593
234 lines
8.8 KiB
Python
234 lines
8.8 KiB
Python
# vim: set ts=8 sts=4 et sw=4 tw=79:
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# 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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# ----------------------------------------------------------------------------
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# All heap allocations in SpiderMonkey must go through js_malloc, js_calloc,
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# js_realloc, and js_free. This is so that any embedder who uses a custom
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# allocator (by defining JS_USE_CUSTOM_ALLOCATOR) will see all heap allocation
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# go through that custom allocator.
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#
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# Therefore, the presence of any calls to "vanilla" allocation/free functions
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# from within SpiderMonkey itself (e.g. malloc(), free()) is a bug. Calls from
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# within mozglue and non-SpiderMonkey locations are fine; there is a list of
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# exceptions that can be added to as the need arises.
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#
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# This script checks for the presence of such disallowed vanilla
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# allocation/free function in SpiderMonkey when it's built as a library. It
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# relies on |nm| from the GNU binutils, and so only works on Linux, but one
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# platform is good enough to catch almost all violations.
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#
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# This checking is only 100% reliable in a JS_USE_CUSTOM_ALLOCATOR build in
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# which the default definitions of js_malloc et al (in Utility.h) -- which call
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# malloc et al -- are replaced with empty definitions. This is because the
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# presence and possible inlining of the default js_malloc et al can cause
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# malloc/calloc/realloc/free calls show up in unpredictable places.
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#
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# Unfortunately, that configuration cannot be tested on Mozilla's standard
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# testing infrastructure. Instead, by default this script only tests that none
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# of the other vanilla allocation/free functions (operator new, memalign, etc)
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# are present. If given the --aggressive flag, it will also check for
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# malloc/calloc/realloc/free.
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#
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# Note: We don't check for |operator delete| and |operator delete[]|. These
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# can be present somehow due to virtual destructors, but this is not too
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# because vanilla delete/delete[] calls don't make sense without corresponding
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# vanilla new/new[] calls, and any explicit calls will be caught by Valgrind's
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# mismatched alloc/free checking.
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# ----------------------------------------------------------------------------
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from __future__ import absolute_import, print_function, unicode_literals
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import argparse
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import re
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import subprocess
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import sys
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import buildconfig
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# The obvious way to implement this script is to search for occurrences of
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# malloc et al, succeed if none are found, and fail is some are found.
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# However, "none are found" does not necessarily mean "none are present" --
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# this script could be buggy. (Or the output format of |nm| might change in
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# the future.)
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#
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# So util/Utility.cpp deliberately contains a (never-called) function that
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# contains a single use of all the vanilla allocation/free functions. And this
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# script fails if it (a) finds uses of those functions in files other than
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# util/Utility.cpp, *or* (b) fails to find them in util/Utility.cpp.
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# Tracks overall success of the test.
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has_failed = False
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def fail(msg):
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print("TEST-UNEXPECTED-FAIL | check_vanilla_allocations.py |", msg)
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global has_failed
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has_failed = True
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def main():
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parser = argparse.ArgumentParser()
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parser.add_argument(
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"--aggressive",
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action="store_true",
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help="also check for malloc, calloc, realloc and free",
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)
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parser.add_argument("file", type=str, help="name of the file to check")
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args = parser.parse_args()
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# Run |nm|. Options:
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# -u: show only undefined symbols
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# -C: demangle symbol names
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# -A: show an object filename for each undefined symbol
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nm = buildconfig.substs.get("NM") or "nm"
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cmd = [nm, "-u", "-C", "-A", args.file]
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lines = subprocess.check_output(
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cmd, universal_newlines=True, stderr=subprocess.PIPE
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).split("\n")
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# alloc_fns contains all the vanilla allocation/free functions that we look
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# for. Regexp chars are escaped appropriately.
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alloc_fns = [
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# Matches |operator new(unsigned T)|, where |T| is |int| or |long|.
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r"operator new\(unsigned",
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# Matches |operator new[](unsigned T)|, where |T| is |int| or |long|.
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r"operator new\[\]\(unsigned",
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r"memalign",
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# These three aren't available on all Linux configurations.
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# r'posix_memalign',
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# r'aligned_alloc',
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# r'valloc',
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]
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if args.aggressive:
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alloc_fns += [r"malloc", r"calloc", r"realloc", r"free", r"strdup"]
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# This is like alloc_fns, but regexp chars are not escaped.
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alloc_fns_unescaped = [fn.replace("\\", "") for fn in alloc_fns]
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# This regexp matches the relevant lines in the output of |nm|, which look
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# like the following.
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#
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# js/src/libjs_static.a:Utility.o: U malloc
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#
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alloc_fns_re = r"([^:/ ]+):\s+U (" + r"|".join(alloc_fns) + r")"
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# This tracks which allocation/free functions have been seen in
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# util/Utility.cpp.
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util_Utility_cpp = set([])
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# Would it be helpful to emit detailed line number information after a failure?
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emit_line_info = False
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for line in lines:
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m = re.search(alloc_fns_re, line)
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if m is None:
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continue
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filename = m.group(1)
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# The stdc++compat library has an implicit call to operator new in
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# thread::_M_start_thread.
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if "stdc++compat" in filename:
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continue
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# The memory allocator code contains calls to memalign. These are ok, so
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# we whitelist them.
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if "_memory_" in filename:
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continue
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# Ignore the fuzzing code imported from m-c
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if "Fuzzer" in filename:
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continue
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# Ignore the profiling pseudo-stack, since it needs to run even when
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# SpiderMonkey's allocator isn't initialized.
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if "ProfilingStack" in filename:
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continue
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# Ignore implicit call to operator new in std::condition_variable_any.
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#
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# From intl/icu/source/common/umutex.h:
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# On Linux, the default constructor of std::condition_variable_any
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# produces an in-line reference to global operator new(), [...].
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if filename == "umutex.o":
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continue
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# Ignore allocations from decimal conversion functions inside mozglue.
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if filename == "Decimal.o":
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continue
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# Ignore allocations from the m-c intl/components implementations.
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if "intl_components" in filename:
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continue
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fn = m.group(2)
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if filename == "Utility.o":
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util_Utility_cpp.add(fn)
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else:
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# An allocation is present in a non-special file. Fail!
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fail("'" + fn + "' present in " + filename)
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# Try to give more precise information about the offending code.
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emit_line_info = True
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# Check that all functions we expect are used in util/Utility.cpp. (This
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# will fail if the function-detection code breaks at any point.)
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for fn in alloc_fns_unescaped:
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if fn not in util_Utility_cpp:
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fail("'" + fn + "' isn't used as expected in util/Utility.cpp")
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else:
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util_Utility_cpp.remove(fn)
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# This should never happen, but check just in case.
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if util_Utility_cpp:
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fail(
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"unexpected allocation fns used in util/Utility.cpp: "
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+ ", ".join(util_Utility_cpp)
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)
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# If we found any improper references to allocation functions, try to use
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# DWARF debug info to get more accurate line number information about the
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# bad calls. This is a lot slower than 'nm -A', and it is not always
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# precise when building with --enable-optimized.
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if emit_line_info:
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print("check_vanilla_allocations.py: Source lines with allocation calls:")
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print(
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"check_vanilla_allocations.py: Accurate in unoptimized builds; "
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"util/Utility.cpp expected."
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)
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# Run |nm|. Options:
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# -u: show only undefined symbols
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# -C: demangle symbol names
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# -l: show line number information for each undefined symbol
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cmd = ["nm", "-u", "-C", "-l", args.file]
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lines = subprocess.check_output(
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cmd, universal_newlines=True, stderr=subprocess.PIPE
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).split("\n")
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# This regexp matches the relevant lines in the output of |nm -l|,
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# which look like the following.
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#
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# U malloc util/Utility.cpp:117
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#
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alloc_lines_re = r"U ((" + r"|".join(alloc_fns) + r").*)\s+(\S+:\d+)$"
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for line in lines:
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m = re.search(alloc_lines_re, line)
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if m:
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print(
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"check_vanilla_allocations.py:", m.group(1), "called at", m.group(3)
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)
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if has_failed:
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sys.exit(1)
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print("TEST-PASS | check_vanilla_allocations.py | ok")
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sys.exit(0)
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if __name__ == "__main__":
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main()
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