libstdc++-v3/ChangeLog:
* include/experimental/socket (socket_base::shutdown_type):
(socket_base::wait_type, socket_base::message_flags):
Remove enumerators. Initialize constants directly with desired
values.
(socket_base::message_flags): Make all operators constexpr and
noexcept.
* testsuite/util/testsuite_common_types.h (test_bitmask_values):
New test utility.
* testsuite/experimental/net/socket/socket_base.cc: New test.
> Tested on powerpc64{,le}-linux now (-m32/-m64 on be) and while the first
> patch works fine, the second one unfortunately doesn't on either be or le,
> so more work is needed there.
Here are the needed changes to make it work.
For symbols with _LDBL_ substring in version name we already have code to
ignore those if no such symbols appear (but it is slightly incorrect, see
below).
So, this patch does the same thing for symbol versions with _IEEE128_
substring.
The previously incorrectly handled case is that in addition to
FUNC:_ZNKSt17__gnu_cxx_ieee1287num_getIcSt19istreambuf_iteratorIcSt11char_traitsIcEEE14_M_extract_intImEES4_S4_S4_RSt8ios_baseRSt12_Ios_IostateRT_@@GLIBCXX_IEEE128_3.4.29
or
OBJECT:12:_ZTSu9__ieee128@@CXXABI_IEEE128_1.3.13
cases we also have the
OBJECT:0:CXXABI_IEEE128_1.3.13
OBJECT:0:GLIBCXX_IEEE128_3.4.29
cases, which have empty version_name and the name is in that case the
symbol version. Those need to be ignored too.
2021-04-20 Jakub Jelinek <jakub@redhat.com>
* testsuite/util/testsuite_abi.cc (compare_symbols): If any symbol
versions with _IEEE128_ substring are found, set ieee_version_found
to true. Ignore missing symbols with _IEEE128_ in version name if
!ieee_version_found. Use i->first as version_name instead of
i->second.version_name if the latter is empty.
* config/abi/post/powerpc64-linux-gnu/baseline_symbols.txt: Update.
This makes std::random_device usable on VxWorks when running on older
x86 hardware. Since the r10-728 fix for PR libstdc++/85494 the library
will use the new code unconditionally on x86, but the cpuid checks for
RDSEED and RDRAND can fail at runtime, depending on the hardware where
the code is executing. If the OS does not provide /dev/urandom then this
means the std::random_device constructor always fails. In previous
releases if /dev/urandom is unavailable then std::mt19937 was used
unconditionally.
This patch adds a fallback for the case where the runtime cpuid checks
for x86 hardware instructions fail, and no /dev/urandom is available.
When this happens a std::linear_congruential_engine object will be used,
with a seed based on hashing the engine's address and the current time.
Distinct std::random_device objects will use different seeds, unless an
object is created and destroyed and a new object created at the same
memory location within the clock tick. This is not great, but is better
than always throwing from the constructor, and better than always using
std::mt19937 with the same seed (as GCC 9 and earlier do).
libstdc++-v3/ChangeLog:
* src/c++11/random.cc (USE_LCG): Define when a pseudo-random
fallback is needed.
[USE_LCG] (bad_seed, construct_lcg_at, destroy_lcg_at, __lcg):
New helper functions and callback.
(random_device::_M_init): Add 'prng' and 'all' enumerators.
Replace switch with fallthrough with a series of 'if' statements.
[USE_LCG]: Construct an lcg_type engine and use __lcg when cpuid
checks fail.
(random_device::_M_init_pretr1) [USE_MT19937]: Accept "prng"
token.
(random_device::_M_getval): Check for callback unconditionally
and always pass _M_file pointer.
* testsuite/26_numerics/random/random_device/85494.cc: Remove
effective-target check. Use new random_device_available helper.
* testsuite/26_numerics/random/random_device/94087.cc: Likewise.
* testsuite/26_numerics/random/random_device/cons/default-cow.cc:
Remove effective-target check.
* testsuite/26_numerics/random/random_device/cons/default.cc:
Likewise.
* testsuite/26_numerics/random/random_device/cons/token.cc: Use
new random_device_available helper. Test "prng" token.
* testsuite/util/testsuite_random.h (random_device_available):
New helper function.
The testsuite utilities that use random numbers use a
default-constructed mersenne_twister_engine, meaning the values are
reproducable. This adds support for seeding them, controlledby an
environment variable. Defining GLIBCXX_SEED_TEST_RNG=val in the
environment will cause the engines to be seeded with atoi(val) if that
is non-zero, or with a value read from std::random_device otherwise.
Running with different seeds revealed some bugs in the tests, where a
randomly selected iterator was past-the-end (which can't be erased), or
where the randomly populated container was empty, and then we tried to
remove elements from it unconditionally.
libstdc++-v3/ChangeLog:
* testsuite/util/exception/safety.h (setup_base::generate):
Support seeding random engine.
(erase_point, erase_range): Adjust range of random numbers to
ensure dereferenceable iterators are used where required.
(generation_prohibited::run): Do not try to erase from empty
containers.
* testsuite/util/testsuite_containergen.h (test_containers):
Support seeding random engine.
The helper function for creating new paths doesn't work well on Windows,
because the PID of a process started by Wine is very consistent and so
the same path gets created each time.
libstdc++-v3/ChangeLog:
* testsuite/util/testsuite_fs.h (nonexistent_path): Add
random number to the path.
This adds support for the new __ieee128 long double format on
powerpc64le targets.
Most of the complexity comes from wanting a single libstdc++.so library
that contains the symbols needed by code compiled with both
-mabi=ibmlongdouble and -mabi=ieeelongdouble (and not forgetting
-mlong-double-64 as well!)
In a few places this just requires an extra overload, for example
std::from_chars has to be overloaded for both forms of long double.
That can be done in a single translation unit that defines overloads
for 'long double' and also '__ieee128', so that user code including
<charconv> will be able to link to a definition for either type of long
double. Those are the easy cases.
The difficult parts are (as for the std::string ABI transition) the I/O
and locale facets. In order to be able to write either form of long
double to an ostream such as std::cout we need the locale to contain a
std::num_put facet that can handle both forms. The same approach is
taken as was already done for supporting 64-bit long double and 128-bit
long double: adding extra overloads of do_put to the facet class. On
targets where the new long double code is enabled, the facets that are
registered in the locale at program startup have additional overloads so
that they can work with any long double type. Where this fails to work
is if user code installs its own facet, which will probably not have the
additional overloads and so will only be able to output one or the other
type. In practice the number of users expecting to be able to use their
own locale facets in code using a mix of -mabi=ibmlongdouble and
-mabi=ieeelongdouble is probably close to zero.
libstdc++-v3/ChangeLog:
* Makefile.in: Regenerate.
* config.h.in: Regenerate.
* config/abi/pre/gnu.ver: Make patterns less greedy.
* config/os/gnu-linux/ldbl-ieee128-extra.ver: New file with patterns
for IEEE128 long double symbols.
* configure: Regenerate.
* configure.ac: Enable alternative 128-bit long double format on
powerpc64*-*-linux*.
* doc/Makefile.in: Regenerate.
* fragment.am: Regenerate.
* include/Makefile.am: Set _GLIBCXX_LONG_DOUBLE_ALT128_COMPAT.
* include/Makefile.in: Regenerate.
* include/bits/c++config: Define inline namespace for new long
double symbols. Don't define _GLIBCXX_USE_FLOAT128 when it's the
same type as long double.
* include/bits/locale_classes.h [_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT]
(locale::_Impl::_M_init_extra_ldbl128): Declare new member function.
* include/bits/locale_facets.h (_GLIBCXX_NUM_FACETS): Simplify by
only counting narrow character facets.
(_GLIBCXX_NUM_CXX11_FACETS): Likewise.
(_GLIBCXX_NUM_LBDL_ALT128_FACETS): New.
[_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT] (num_get::__do_get): Define
vtable placeholder for __ibm128 long double type.
[_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT && __LONG_DOUBLE_IEEE128__]
(num_get::__do_get): Declare vtable placeholder for __ibm128 long
double type.
[_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT && __LONG_DOUBLE_IEEE128__]
(num_put::__do_put): Likewise.
* include/bits/locale_facets.tcc
[_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT && __LONG_DOUBLE_IEEE128__]
(num_get::__do_get, num_put::__do_put): Define.
* include/bits/locale_facets_nonio.h
[_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT && __LONG_DOUBLE_IEEE128__]
(money_get::__do_get): Declare vtable placeholder for __ibm128 long
double type.
[_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT && __LONG_DOUBLE_IEEE128__]
(money_put::__do_put): Likewise.
* include/bits/locale_facets_nonio.tcc
[_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT && __LONG_DOUBLE_IEEE128__]
(money_get::__do_get, money_put::__do_put): Define.
* include/ext/numeric_traits.h [_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT]
(__numeric_traits<__ibm128>, __numeric_traits<__ieee128>): Define.
* libsupc++/Makefile.in: Regenerate.
* po/Makefile.in: Regenerate.
* python/Makefile.in: Regenerate.
* src/Makefile.am: Add compatibility-ldbl-alt128.cc and
compatibility-ldbl-alt128-cxx11.cc sources and recipes for objects.
* src/Makefile.in: Regenerate.
* src/c++11/Makefile.in: Regenerate.
* src/c++11/compatibility-ldbl-alt128-cxx11.cc: New file defining
symbols using the old 128-bit long double format, for the cxx11 ABI.
* src/c++11/compatibility-ldbl-alt128.cc: Likewise, for the
gcc4-compatible ABI.
* src/c++11/compatibility-ldbl-facets-aliases.h: New header for long
double compat aliases.
* src/c++11/cow-locale_init.cc: Add comment.
* src/c++11/cxx11-locale-inst.cc: Define C and C_is_char
unconditionally.
* src/c++11/cxx11-wlocale-inst.cc: Add sanity check. Include
locale-inst.cc directly, not via cxx11-locale-inst.cc.
* src/c++11/locale-inst-monetary.h: New header for monetary
category instantiations.
* src/c++11/locale-inst-numeric.h: New header for numeric category
instantiations.
* src/c++11/locale-inst.cc: Include new headers for monetary,
numeric, and long double definitions.
* src/c++11/wlocale-inst.cc: Remove long double compat aliases that
are defined in new header now.
* src/c++17/Makefile.am: Use -mabi=ibmlongdouble for
floating_from_chars.cc.
* src/c++17/Makefile.in: Regenerate.
* src/c++17/floating_from_chars.cc (from_chars_impl): Add
if-constexpr branch for __ieee128.
(from_chars): Overload for __ieee128.
* src/c++20/Makefile.in: Regenerate.
* src/c++98/Makefile.in: Regenerate.
* src/c++98/locale_init.cc (num_facets): Adjust calculation.
(locale::_Impl::_Impl(size_t)): Call _M_init_extra_ldbl128.
* src/c++98/localename.cc (num_facets): Adjust calculation.
(locale::_Impl::_Impl(const char*, size_t)): Call
_M_init_extra_ldbl128.
* src/filesystem/Makefile.in: Regenerate.
* testsuite/Makefile.in: Regenerate.
* testsuite/util/testsuite_abi.cc: Add new symbol versions.
Allow new symbols to be added to GLIBCXX_IEEE128_3.4.29 and
CXXABI_IEEE128_1.3.13 too.
* testsuite/26_numerics/complex/abi_tag.cc: Add u9__ieee128 to
regex matching expected symbols.
This fixes a race condition in the util/atomic/wait_notify_util.h header
used by several tests, which should make the tests work properly.
libstdc++-v3/ChangeLog:
PR libstdc++/97936
* testsuite/29_atomics/atomic/wait_notify/bool.cc: Re-eneable
test.
* testsuite/29_atomics/atomic/wait_notify/generic.cc: Likewise.
* testsuite/29_atomics/atomic/wait_notify/pointers.cc: Likewise.
* testsuite/29_atomics/atomic_flag/wait_notify/1.cc: Likewise.
* testsuite/29_atomics/atomic_float/wait_notify.cc: Likewise.
* testsuite/29_atomics/atomic_integral/wait_notify.cc: Likewise.
* testsuite/util/atomic/wait_notify_util.h: Fix missed
notifications by making the new thread wait until the parent
thread is waiting on the condition variable.
This inlines most members of std::exception_ptr so that all operations
on a null exception_ptr can be optimized away. This benefits code like
std::future and coroutines where an exception_ptr object is present to
cope with exceptional cases, but is usually not used and remains null.
Since those functions were previously non-inline we have to continue to
export them from the library, for objects that were compiled against the
old headers and expect to find definitions in the library.
In order to inline the copy constructor and destructor we need to export
the _M_addref() and _M_release() members that increment/decrement the
reference count when copying/destroying a non-null exception_ptr. The
copy ctor and dtor check for null and don't call _M_addref and
_M_release unless they need to. The checks for null pointers in
_M_addref and _M_release are still needed because old code might call
them without checking for null first. But we can use __builtin_expect to
predict that they are usually called for the non-null case.
libstdc++-v3/ChangeLog:
PR libstdc++/90295
* config/abi/pre/gnu.ver (CXXABI_1.3.13): New symbol version.
(exception_ptr::_M_addref(), exception_ptr::_M_release()):
Export symbols.
* libsupc++/eh_ptr.cc (exception_ptr::exception_ptr()):
Remove out-of-line definition.
(exception_ptr::exception_ptr(const exception_ptr&)):
Likewise.
(exception_ptr::~exception_ptr()): Likewise.
(exception_ptr::operator=(const exception_ptr&)):
Likewise.
(exception_ptr::swap(exception_ptr&)): Likewise.
(exception_ptr::_M_addref()): Add branch prediction.
* libsupc++/exception_ptr.h (exception_ptr::operator bool):
Add noexcept.
[!_GLIBCXX_EH_PTR_COMPAT] (operator==, operator!=): Define
inline as hidden friends. Remove declarations at namespace
scope.
(exception_ptr::exception_ptr()): Define inline.
(exception_ptr::exception_ptr(const exception_ptr&)):
Likewise.
(exception_ptr::~exception_ptr()): Likewise.
(exception_ptr::operator=(const exception_ptr&)):
Likewise.
(exception_ptr::swap(exception_ptr&)): Likewise.
* testsuite/util/testsuite_abi.cc: Add CXXABI_1.3.13.
* testsuite/18_support/exception_ptr/90295.cc: New test.
Previously it was not possible to add -fno-exceptions to the testsuite
flags, because some files that are compiled by the v3-build_support
procedure failed with exceptions disabled.
This adjusts those files to still compile without exceptions (with
degraded functionality in some cases).
The sole testcase that explicitly checks for -fno-exceptions has also
been adjusted to use the more robust exceptions_enabled effective-target
keyword from gcc/testsuite/lib/target-supports.exp.
libstdc++-v3/ChangeLog:
* testsuite/23_containers/vector/bool/72847.cc: Use the
exceptions_enabled effective-target keyword instead of
checking for an explicit -fno-exceptions option.
* testsuite/util/testsuite_abi.cc (examine_symbol): Remove
redundant try-catch.
* testsuite/util/testsuite_allocator.h [!__cpp_exceptions]:
Do not define check_allocate_max_size and memory_resource.
* testsuite/util/testsuite_containers.h: Replace comment with
#error if wrong standard dialect used.
* testsuite/util/testsuite_shared.cc: Likewise.
This adds the missing std::from_chars overloads for floating-point
types, as required for C++17 conformance.
The implementation is a hack and not intended to be used in the long
term. Rather than parsing the string directly, this determines the
initial portion of the string that matches the pattern determined by the
chars_format parameter, then creates a NTBS to be parsed by strtod (or
strtold or strtof).
Because creating a NTBS requires allocating memory, but std::from_chars
is noexcept, we need to be careful to minimise allocation. Even after
being careful, allocation failure is still possible, and so a
non-conforming std::no_more_memory error code might be returned.
Because strtod et al depend on the current locale, but std::from_chars
does not, we change the current thread's locale to "C" using newlocale
and uselocale before calling strtod, and restore it afterwards.
Because strtod doesn't have the equivalent of a std::chars_format
parameter, it has to examine the input to determine the format in use,
even though the std::from_chars code has already parsed it once (or
twice for large input strings!)
By replacing the use of strtod we could avoid allocation, avoid changing
locale, and use optimised code paths specific to each std::chars_format
case. We would also get more portable behaviour, rather than depending
on the presence of uselocale, and on any bugs or quirks of the target
libc's strtod. Replacing strtod is a project for a later date.
libstdc++-v3/ChangeLog:
* acinclude.m4 (libtool_VERSION): Bump version.
* config.h.in: Regenerate.
* config/abi/pre/gnu.ver: Add GLIBCXX_3.4.29 version and new
exports.
* config/os/gnu-linux/ldbl-extra.ver: Add _GLIBCXX_LDBL_3.4.29
version and new export.
* configure: Regenerate.
* configure.ac: Check for <xlocale.h> and uselocale.
* crossconfig.m4: Add macro or checks for uselocale.
* include/std/charconv (from_chars): Declare overloads for
float, double, and long double.
* src/c++17/Makefile.am: Add new file.
* src/c++17/Makefile.in: Regenerate.
* src/c++17/floating_from_chars.cc: New file.
(from_chars): Define for float, double, and long double.
* testsuite/20_util/from_chars/1_c++20_neg.cc: Prune extra
diagnostics caused by new overloads.
* testsuite/20_util/from_chars/1_neg.cc: Likewise.
* testsuite/20_util/from_chars/2.cc: Check leading '+'.
* testsuite/20_util/from_chars/4.cc: New test.
* testsuite/20_util/from_chars/5.cc: New test.
* testsuite/util/testsuite_abi.cc: Add new symbol versions.
Since it was added in C++11, std::copy_n and std::ranges::copy_n should
do nothing given a negative size, but for random access iterators we add
the size to the iterator, possibly resulting in undefined behaviour.
Also, C++20 clarified that std::copy_n requires the Size type to be
convertible to an integral type. We previously assumed that it could be
directly used in arithmetic expressions, without conversion to an
integral type.
This also fixes a bug in the random_access_iterator_wrapper helper adds
some convenience aliases for using the iterator wrappers.
libstdc++-v3/ChangeLog:
* include/bits/ranges_algobase.h (__copy_n_fn): Only call
ranges::copy for positive values.
* include/bits/stl_algo.h (copy_n): Convert Size argument to an
integral type and only call __copy_n for positive values.
* testsuite/util/testsuite_iterators.h
(random_access_iterator_wrapper::operator+=): Fix range check for
negative values.
(output_container, input_container, forward_container)
(bidirectional_container, random_access_container): New alias
templates.
* testsuite/25_algorithms/copy_n/5.cc: New test.
I noticed recently that our input_iterator_wrapper utility for writing
tests has the following post-increment operator:
void
operator++(int)
{
++*this;
}
That fails to meet the Cpp17InputIterator requirement that *r++ is
valid. This change makes it return a non-void proxy type that can be
deferenced to produce another proxy, which is convertible to the
value_type. The second proxy converts to const T& to ensure it can't be
written to.
* testsuite/util/testsuite_iterators.h:
(input_iterator_wrapper::operator++(int)): Return proxy object.
In C++20 the rebind and const_reference members of std::allocator are
gone, so this testsuite utility stopped working, causing
ext/pb_ds/regression/priority_queue_rand_debug.cc to FAIL.
* testsuite/util/native_type/native_priority_queue.hpp: Use
allocator_traits to rebind allocator.
For C++20 the wait_until members of mutexes and condition variables are
required to be ill-formed if given a clock that doesn't meet the
requirements for a clock type. To implement that requirement this patch
adds static assertions using the chrono::is_clock trait, and defines
that trait.
To avoid expensive checks for the common cases, the trait (and
associated variable template) are explicitly specialized for the
standard clock types.
This also moves the filesystem::__file_clock type from <filesystem> to
<chrono>, so that chrono::file_clock and chrono::file_time can be
defined in <chrono> as required.
* include/bits/fs_fwd.h (filesystem::__file_clock): Move to ...
* include/std/chrono (filesystem::__file_clock): Here.
(filesystem::__file_clock::from_sys, filesystem::__file_clock::to_sys):
Define public member functions for C++20.
(is_clock, is_clock_v): Define traits for C++20.
* include/std/condition_variable (condition_variable::wait_until): Add
check for valid clock.
* include/std/future (_State_baseV2::wait_until): Likewise.
* include/std/mutex (__timed_mutex_impl::_M_try_lock_until): Likewise.
* include/std/shared_mutex (shared_timed_mutex::try_lock_shared_until):
Likewise.
* include/std/thread (this_thread::sleep_until): Likewise.
* testsuite/30_threads/condition_variable/members/2.cc: Qualify
slow_clock with new namespace.
* testsuite/30_threads/condition_variable/members/clock_neg.cc: New
test.
* testsuite/30_threads/condition_variable_any/members/clock_neg.cc:
New test.
* testsuite/30_threads/future/members/clock_neg.cc: New test.
* testsuite/30_threads/recursive_timed_mutex/try_lock_until/3.cc:
Qualify slow_clock with new namespace.
* testsuite/30_threads/recursive_timed_mutex/try_lock_until/
clock_neg.cc: New test.
* testsuite/30_threads/shared_future/members/clock_neg.cc: New
test.
* testsuite/30_threads/shared_lock/locking/clock_neg.cc: New test.
* testsuite/30_threads/shared_timed_mutex/try_lock_until/clock_neg.cc:
New test.
* testsuite/30_threads/timed_mutex/try_lock_until/3.cc: Qualify
slow_clock with new namespace.
* testsuite/30_threads/timed_mutex/try_lock_until/4.cc: Likewise.
* testsuite/30_threads/timed_mutex/try_lock_until/clock_neg.cc: New
test.
* testsuite/30_threads/unique_lock/locking/clock_neg.cc: New test.
* testsuite/std/time/traits/is_clock.cc: New test.
* testsuite/util/slow_clock.h (slow_clock): Move to __gnu_test
namespace.
This adds a tests that verifies taking the split_view of a non-forward range
works correctly. Doing so revealed a typo in one of _OuterIter's constructors.
It also revealed that the default constructor of
__gnu_test::test_range::iterator misbehaves, because by delegating to
Iter<T>(nullptr, nullptr) we perform a null-pointer deref at runtime in
input_iterator_wrapper's constructor due to the ITERATOR_VERIFY check therein.
Instead of delegating to this constructor it seems we can just inherit the
protected default constructor, which does not contain this ITERATOR_VERIFY
check.
libstdc++-v3/ChangeLog:
* include/std/ranges (split_view::_OuterIter::_OuterIter): Typo fix,
'address' -> 'std::__addressof'.
* testsuite/std/ranges/adaptors/split.cc: Test taking the split_view of
a non-forward input_range.
* testsuite/util/testsuite_iterators.h (output_iterator_wrapper): Make
default constructor protected instead of deleted, like with
input_iterator_wrapper.
(test_range::iterator): Add comment explaining that this type is used
only when the underlying wrapper is input_iterator_wrapper or
output_iterator_wrapper. Remove delegating defaulted constructor so
that the inherited default constructor is used instead.
This adds a testsuite range type whose end() is a sized sentinel to
<testsuite_iterators.h>, which will be used in the tests that verify LWG 3355.
libstdc++-v3/ChangeLog:
* testsuite/util/testsuite_iterators.h (test_range::get_iterator): Make
protected instead of private.
(test_sized_range_sized_sent): New.
This adds a move-only testsuite iterator wrapper to <testsuite_iterators.h>
which will be used in the tests for LWG 3355. The tests for LWG 3389 and 3390
are adjusted to use this new iterator wrapper.
libstdc++-v3/ChangeLog:
* testsuite/util/testsuite_iterators.h (input_iterator_wrapper_nocopy):
New testsuite iterator.
* testsuite/24_iterators/counted_iterator/lwg3389.cc: Use it.
* testsuite/24_iterators/move_iterator/lwg3390.cc: Likewise.
Comparing value-initialized forward_iterator_wrapper<T> objects fails an
assertion, but should be valid in C++14 and later.
* testsuite/util/testsuite_iterators.h (forward_iterator_wrapper): Add
equality comparisons that support value-initialized iterators.
It seems that in practice std::sentinel_for<I, I> is always true, and so the
test_range container doesn't help us detect bugs in ranges code in which we
wrongly assume that a sentinel can be manipulated like an iterator. Make the
test_range range more strict by having end() unconditionally return a
sentinel<I>, and adjust some tests accordingly.
libstdc++-v3/ChangeLog:
* testsuite/24_iterators/range_operations/distance.cc: Do not assume
test_range::end() returns the same type as test_range::begin().
* testsuite/24_iterators/range_operations/next.cc: Likewise.
* testsuite/24_iterators/range_operations/prev.cc: Likewise.
* testsuite/util/testsuite_iterators.h (__gnu_test::test_range::end):
Always return a sentinel<I>.
* testsuite/std/ranges/access/end.cc: Do not assume test_range::end()
returns the same type as test_range::begin(). Add comments.
* testsuite/std/ranges/access/rbegin.cc: Likewise.
* testsuite/std/ranges/access/rend.cc: Likewise.
* testsuite/std/ranges/range.cc: Do not assume the sentinel for
test_range is the same as its iterator type.
* testsuite/util/testsuite_iterators.h (test_range::sentinel): Add
operator- overloads to satisfy sized_sentinel_for when the iterator
satisfies random_access_iterator.
This implements the new requirements for C++20 that std::atomic should
initialize the atomic variable in its default constructor.
This patch does not add the deprecated attribute to atomic_init, but
that should be done at some point as it's deprecated in C++20.
The paper also deprecates the ATOMIC_FLAG_INIT macro, although we can't
apply the deprecated attribute to a macro.
PR libstdc++/58605
* include/bits/atomic_base.h (__cpp_lib_atomic_value_initialization):
Define.
(__atomic_flag_base, __atomic_base, __atomic_base<_PTp*>)
(__atomic_float): Add default member initializer for C++20.
* include/std/atomic (atomic): Likewise.
(atomic::atomic()): Remove noexcept-specifier on default constructor.
* include/std/version (__cpp_lib_atomic_value_initialization): Define.
* testsuite/29_atomics/atomic/cons/assign_neg.cc: Adjust dg-error line
number.
* testsuite/29_atomics/atomic/cons/copy_neg.cc: Likewise.
* testsuite/29_atomics/atomic/cons/value_init.cc: New test.
* testsuite/29_atomics/atomic_flag/cons/value_init.cc: New test.
* testsuite/29_atomics/atomic_flag/requirements/trivial.cc: Adjust
expected result for is_trivially_default_constructible.
* testsuite/29_atomics/atomic_float/requirements.cc: Likewise.
* testsuite/29_atomics/atomic_float/value_init.cc: New test.
* testsuite/29_atomics/atomic_integral/cons/assign_neg.cc: Likewise.
* testsuite/29_atomics/atomic_integral/cons/copy_neg.cc: Likewise.
* testsuite/29_atomics/atomic_integral/cons/value_init.cc
* testsuite/29_atomics/atomic_integral/requirements/trivial.cc: Adjust
expected results for is_trivially_default_constructible.
* testsuite/util/testsuite_common_types.h (has_trivial_dtor): Add
new test generator.
This fixes a typo and also explains why test_container is not a range
when used with output_iterator_wrapper or input_iterator_wrapper.
* testsuite/util/testsuite_iterators.h: Improve comment.
From-SVN: r280146
This change replaces the __forwarding_range implementation detail with
the ranges::safe_range concept and adds the ranges::enable_safe_range
variable template for opt-in in to the concept.
It also adjusts the begin/end/rbegin/rend customization point objects to
match the new rules for accessing rvalue ranges only when safe to do so.
* include/bits/range_access.h (ranges::enable_safe_range): Define.
(ranges::begin, ranges::end, ranges::rbegin, ranges::rend): Constrain
to only accept types satisfying safe_range and treat argument as an
lvalue when calling a member of performing ADL.
(ranges::__detail::__range_impl, ranges::__detail::__forwarding_range):
Remove.
(ranges::range): Adjust definition.
(ranges::safe_range): Define.
(ranges::iterator_t, ranges::range_difference_t): Reorder definitions
to match the synopsis in the working draft.
(ranges::disable_sized_range): Remove duplicate definition.
* include/experimental/string_view (ranges::enable_safe_range): Add
partial specialization for std::experimental::basic_string_view.
* include/std/ranges (ranges::viewable_range, ranges::subrange)
(ranges::empty_view, ranges::iota_view): Use safe_range. Specialize
enable_safe_range.
(ranges::safe_iterator_t, ranges::safe_subrange_t): Define.
* include/std/span (ranges::enable_safe_range): Add partial
specialization for std::span.
* include/std/string_view (ranges::enable_safe_range): Likewise for
std::basic_string_view.
* testsuite/std/ranges/access/begin.cc: Adjust expected results.
* testsuite/std/ranges/access/cbegin.cc: Likewise.
* testsuite/std/ranges/access/cdata.cc: Likewise.
* testsuite/std/ranges/access/cend.cc: Likewise.
* testsuite/std/ranges/access/crbegin.cc: Likewise.
* testsuite/std/ranges/access/crend.cc: Likewise.
* testsuite/std/ranges/access/data.cc: Likewise.
* testsuite/std/ranges/access/end.cc: Likewise.
* testsuite/std/ranges/access/rbegin.cc: Likewise.
* testsuite/std/ranges/access/rend.cc: Likewise.
* testsuite/std/ranges/empty_view.cc: Test ranges::begin and
ranges::end instead of unqualified calls to begin and end.
* testsuite/std/ranges/safe_range.cc: New test.
* testsuite/std/ranges/safe_range_types.cc: New test.
* testsuite/util/testsuite_iterators.h: Add comment about safe_range.
From-SVN: r279135
The slow_clock type was introduced to the testsuite in 2018 in the
testsuite/30_threads/condition_variable/members/2.cc test, so the new
header should have that date.
* testsuite/util/slow_clock.h: Fix copyright date.
From-SVN: r278926
A non-standard clock may tick more slowly than
std::chrono::steady_clock. This means that we risk returning false
early when the specified timeout may not have expired. This can be
avoided by looping until the timeout time as reported by the
non-standard clock has been reached.
Unfortunately, we have no way to tell whether the non-standard clock
ticks more quickly that std::chrono::steady_clock. If it does then we
risk returning later than would be expected, but that is unavoidable and
permitted by the standard.
2019-12-02 Mike Crowe <mac@mcrowe.com>
PR libstdc++/91906 Fix timed_mutex::try_lock_until on arbitrary clock
* include/std/mutex (__timed_mutex_impl::_M_try_lock_until): Loop
until the absolute timeout time is reached as measured against the
appropriate clock.
* testsuite/util/slow_clock.h: New file. Move implementation of
slow_clock test class.
* testsuite/30_threads/condition_variable/members/2.cc: Include
slow_clock from header.
* testsuite/30_threads/shared_timed_mutex/try_lock/3.cc: Convert
existing test to templated function so that it can be called with
both system_clock and steady_clock.
* testsuite/30_threads/timed_mutex/try_lock_until/3.cc: Also run test
using slow_clock to test above fix.
* testsuite/30_threads/recursive_timed_mutex/try_lock_until/3.cc:
Likewise.
* testsuite/30_threads/recursive_timed_mutex/try_lock_until/4.cc: Add
new test that try_lock_until behaves as try_lock if the timeout has
already expired or exactly matches the current time.
From-SVN: r278902
The change approved in Belfast did not actually rename the concept from
std::default_constructible to std::default_initializable, even though
that was intended. That is expected to be done soon as a separate issue,
so I'm implementing that now too.
* include/bits/iterator_concepts.h (weakly_incrementable): Adjust.
* include/std/concepts (default_constructible): Rename to
default_initializable and require default-list-initialization and
default-initialization to be valid (LWG 3149).
(semiregular): Adjust to new name.
* testsuite/std/concepts/concepts.lang/concept.defaultconstructible/
1.cc: Rename directory to concept.defaultinitializable and adjust to
new name.
* testsuite/std/concepts/concepts.lang/concept.defaultinitializable/
lwg3149.cc: New test.
* testsuite/util/testsuite_iterators.h (test_range): Adjust.
From-SVN: r278314
Now that operator<=> is supported, these operators can be generated by
the compiler.
* include/bits/iterator_concepts.h (unreachable_sentinel_t): Remove
redundant equality operators.
* testsuite/util/testsuite_iterators.h (test_range::sentinel):
Likewise.
From-SVN: r277888
* testsuite/util/testsuite_iterators.h (BoundsContainer::size()): Add
new member function.
(WritableObject::operator=): Constrain with enable_if when available.
(remove_cv): Use std::remove_if when available.
(test_container::it(int)): Use size().
(test_container::size()): Use BoundsContainer::size().
From-SVN: r277578
All of these special member functions do exactly what the compiler would
do anyway. By defining them as defaulted for C++11 and later we prevent
move constructors and move assignment operators being defined (which is
consistent with the previous semantics).
Also move default init of the input_iterator_wrapper members from the
derived constructor to the protected base constructor.
* testsuite/util/testsuite_iterators.h (output_iterator_wrapper)
(input_iterator_wrapper, forward_iterator_wrapper)
bidirectional_iterator_wrapper, random_access_iterator_wrapper): Remove
user-provided copy constructors and copy assignment operators so they
are defined implicitly.
(input_iterator_wrapper): Initialize members in default constructor.
(forward_iterator_wrapper): Remove assignments to members of base.
From-SVN: r277459
My recent change to this file broke running the testsuite with
-std=c++98 because std::unordered_map isn't available. This fixes it.
* testsuite/util/testsuite_abi.h: Restore use of tr1/unordered_map
when compiled as C++98.
From-SVN: r277302
C++20 removes a number of std::allocator members that have correct
defaults provided by std::allocator_traits, so aren't needed.
Several extensions including __gnu_cxx::hash_map and tr1 containers are
no longer usable with std::allocator in C++20 mode. They need to be
updated to use __gnu_cxx::__alloc_traits in a follow-up patch.
* include/bits/alloc_traits.h
(allocator_traits<allocator<T>>::allocate): Ignore hint for C++20.
(allocator_traits<allocator<T>>::construct): Perform placement new
directly for C++20, instead of calling allocator<T>::construct.
(allocator_traits<allocator<T>>::destroy): Call destructor directly
for C++20, instead of calling allocator<T>::destroy.
(allocator_traits<allocator<T>>::max_size): Return value directly
for C++20, instead of calling std::allocator<T>::max_size().
(__do_alloc_on_copy, __do_alloc_on_move, __do_alloc_on_swap): Do not
define for C++17 and up.
(__alloc_on_copy, __alloc_on_move, __alloc_on_swap): Use if-constexpr
for C++17 and up, instead of tag dispatching.
* include/bits/allocator.h (allocator<void>): Remove for C++20.
(allocator::pointer, allocator::const_pointer, allocator::reference)
(allocator::const_reference, allocator::rebind): Remove for C++20.
* include/bits/basic_string.h (basic_string): Use __alloc_traits to
rebind allocator.
* include/bits/memoryfwd.h (allocator<void>): Remove for C++20.
* include/ext/debug_allocator.h: Use __alloc_traits for rebinding.
* include/ext/malloc_allocator.h (malloc_allocator::~malloc_allocator)
(malloc_allocator::pointer, malloc_allocator::const_pointer)
(malloc_allocator::reference, malloc_allocator::const_reference)
(malloc_allocator::rebind, malloc_allocator::max_size)
(malloc_allocator::construct, malloc_allocator::destroy): Do not
define for C++20.
(malloc_allocator::_M_max_size): Define new function.
* include/ext/new_allocator.h (new_allocator::~new_allocator)
(new_allocator::pointer, new_allocator::const_pointer)
(new_allocator::reference, new_allocator::const_reference)
(new_allocator::rebind, new_allocator::max_size)
(new_allocator::construct, new_allocator::destroy): Do not
define for C++20.
(new_allocator::_M_max_size): Define new function.
* include/ext/rc_string_base.h (__rc_string_base::_Rep): Use
__alloc_traits to rebind allocator.
* include/ext/rope (_Rope_rep_base, _Rope_base): Likewise.
(rope::rope(CharT, const allocator_type&)): Use __alloc_traits
to construct character.
* include/ext/slist (_Slist_base): Use __alloc_traits to rebind
allocator.
* include/ext/sso_string_base.h (__sso_string_base::_M_max_size):
Use __alloc_traits.
* include/ext/throw_allocator.h (throw_allocator): Do not use optional
members of std::allocator, use __alloc_traits members instead.
* include/ext/vstring.h (__versa_string): Use __alloc_traits.
* include/ext/vstring_util.h (__vstring_utility): Likewise.
* include/std/memory: Include <bits/alloc_traits.h>.
* testsuite/20_util/allocator/8230.cc: Use __gnu_test::max_size.
* testsuite/20_util/allocator/rebind_c++20.cc: New test.
* testsuite/20_util/allocator/requirements/typedefs.cc: Do not check
for pointer, const_pointer, reference, const_reference or rebind in
C++20.
* testsuite/20_util/allocator/requirements/typedefs_c++20.cc: New test.
* testsuite/23_containers/deque/capacity/29134.cc: Use
__gnu_test::max_size.
* testsuite/23_containers/forward_list/capacity/1.cc: Likewise.
* testsuite/23_containers/list/capacity/29134.cc: Likewise.
* testsuite/23_containers/map/capacity/29134.cc: Likewise.
* testsuite/23_containers/multimap/capacity/29134.cc: Likewise.
* testsuite/23_containers/multiset/capacity/29134.cc: Likewise.
* testsuite/23_containers/set/capacity/29134.cc: Likewise.
* testsuite/23_containers/vector/capacity/29134.cc: Likewise.
* testsuite/ext/malloc_allocator/variadic_construct.cc: Do not run
test for C++20.
* testsuite/ext/new_allocator/variadic_construct.cc: Likewise.
* testsuite/ext/vstring/capacity/29134.cc: Use __gnu_test::max_size.
* testsuite/util/replacement_memory_operators.h: Do not assume
Alloc::pointer exists.
* testsuite/util/testsuite_allocator.h (__gnu_test::max_size): Define
helper to call max_size for any allocator.
From-SVN: r277300
PR libstdc++/91871
* testsuite/util/testsuite_hooks.h
(conversion::iterator_to_const_iterator()): Do not return an invalid
iterator. Test direct-initialization and direct-list-initialization
as well as implicit conversion.
From-SVN: r276091