We include libgcc_tm.h to provide a prototype for this shim
so add that to the make dependencies.
Signed-off-by: Iain Sandoe <iain@sandoe.co.uk>
libgcc/ChangeLog:
* config/t-darwin: Add libgcc_tm.h to the dependencies
for darwin10-unwind-find-enc-func.
libgccjit was failing to set the DECL_CONTEXT of function RESULT_DECLs,
leading to them failing to be properly handled by the inlining machinery.
Fixed thusly.
gcc/jit/ChangeLog:
PR jit/103562
* jit-playback.c (gcc::jit::playback::context::new_function): Set
DECL_CONTEXT of the result_decl.
gcc/testsuite/ChangeLog:
PR jit/103562
* jit.dg/all-non-failing-tests.h: Add comment about...
* jit.dg/test-pr103562.c: New test.
Signed-off-by: David Malcolm <dmalcolm@redhat.com>
I was curious if our auto(x) works in contexts like bit-field width
and similar. It appears that it does. Might be worth adding a test
for it.
gcc/testsuite/ChangeLog:
* g++.dg/cpp23/auto-fncast10.C: New test.
gcc/fortran/ChangeLog:
PR fortran/103418
* check.c (variable_check): Replace previous check of procedure
dummy arguments with INTENT(IN) attribute when passed to intrinsic
procedures by gfc_check_vardef_context.
* expr.c (gfc_check_vardef_context): Correct check of INTENT(IN)
dummy arguments for the case of sub-components of a CLASS pointer.
gcc/testsuite/ChangeLog:
PR fortran/103418
* gfortran.dg/move_alloc_8.f90: Adjust error messages.
* gfortran.dg/pointer_intent_9.f90: New test.
This incremental patch adds std::time_get %r support (%p was added already
in the previous patch). The _M_am_fm_format method previously in the header
unfortunately had wrong arguments and so was useless, so the largest
complication in this patch is exporting a new symbol in the right symbol
version.
2021-12-10 Jakub Jelinek <jakub@redhat.com>
PR libstdc++/71367
* config/locale/dragonfly/time_members.cc (_M_initialize_timepunct):
Initialize "C" _M_am_pm_format to %I:%M:%S %p rather than empty
string.
* config/locale/gnu/time_members.cc (_M_initialize_timepunct):
Likewise.
* config/locale/generic/time_members.cc (_M_initialize_timepunct):
Likewise.
* include/bits/locale_facets_nonio.h (_M_am_pm_format): New method.
* include/bits/locale_facets_nonio.tcc (_M_extract_via_format): Handle
%r.
* config/abi/pre/gnu.ver (GLIBCXX_3.4.30): Export _M_am_pm_format
with const _CharT** argument, ensure it isn't exported in GLIBCXX_3.4.
* testsuite/22_locale/time_get/get/char/71367.cc: New test.
* testsuite/22_locale/time_get/get/wchar_t/71367.cc: New test.
The following patch is an attempt to fix various time_get related issues.
Sorry, it is long...
One of them is PR78714. It seems _M_extract_via_format has been written
with how strftime behaves in mind rather than how strptime behaves.
There is a significant difference between the two, for strftime %a and %A
behave differently etc., one emits an abbreviated name, the other full name.
For strptime both should behave the same and accept both the full or
abbreviated names. This needed large changes in _M_extract_name, which
was assuming the names are unique and names aren't prefixes of other names.
The _M_extract_name changes allow to deal with those cases. As can be
seen in the new testcase, e.g. for %b and english locales we need to
accept both Apr and April. If we see Apr in the input, the code looks
at whether there is end right after those 3 chars or if the next
character doesn't match characters in the longer names; in that case
it accepts the abbreviated name. Otherwise, if the input has Apri, it
commits to a longer name and fails if it isn't April. This behavior is
different from strptime, which for %bix and Aprix accepts it, but for
an input iterator I'm afraid we can't do better, we can't go back (peek
more than the current character).
Another case is that %d and %e in strptime should work the same, while
previously the code was hardcoding that %d would be 01 to 31 and %e
1 to 31 (with leading 0 replaced by space).
strptime POSIX 2009 documentation seems to suggest for numbers it should
accept up to the specified number of digits rather than exactly that number
of digits:
The pattern "[x,y]" indicates that the value shall fall within the range
given (both bounds being inclusive), and the maximum number of characters scanned
shall be the maximum required to represent any value in the range without leading
zeros.
so by my reading "1:" is valid for "%H:".
The glibc strptime implementation actually skips any amount of whitespace
in all the cases where a number is read, my current patch skips a single
space at the start of %d/%e but not the others, but doesn't subtract the
space length from the len characters.
One option would be to do the leading whitespace skipping in _M_extract_num
but take it into account how many digits can be read.
This matters for " 12:" and "%H:", but not for " 12:" and " %H:"
as in the latter case the space in the format string results in all the
whitespace at the start to be consumed.
Note, the allowing of a single digit rather than 2 changes a behavior in
other ways, e.g. when seeing 40 in a number for range [1, 31] we reject
it as before, but previously we'd keep *ret == '4' because it was assuming
it has to be 2 digits and 40 isn't valid, so we know error already on the
4, but now we accept the 4 as value and fail iff the next format string
doesn't match the 0.
Also, previously it wasn't really checking the number was in the right
range, it would accept 00 for [1, 31] numbers, or would accept 39.
Another thing is that %I was parsing 12 as tm_hour 12 rather than as tm_hour 0
like e.g. glibc does.
Another thing is that %t was matching a single tab and %n a single newline,
while strptime docs say it skips over whitespace (again, zero or more).
Another thing is that %p wasn't handled at all, I think this was the main
cause of
FAIL: 22_locale/time_get/get_time/char/2.cc execution test
FAIL: 22_locale/time_get/get_time/char/wrapped_env.cc execution test
FAIL: 22_locale/time_get/get_time/char/wrapped_locale.cc execution test
FAIL: 22_locale/time_get/get_time/wchar_t/2.cc execution test
FAIL: 22_locale/time_get/get_time/wchar_t/wrapped_env.cc execution test
FAIL: 22_locale/time_get/get_time/wchar_t/wrapped_locale.cc execution test
before this patch, because en_HK* locales do use %I and %p in it.
The patch handles %p only if it follows %I (i.e. when the hour is parsed
first), which is the more usual case (in glibc):
grep '%I' localedata/locales/* | grep '%I.*%p' | wc -l
282
grep '%I' localedata/locales/* | grep -v '%I.*%p' | wc -l
44
grep '%I' localedata/locales/* | grep -v '%p' | wc -l
17
The last case use %P instead of %p in t_fmt_ampm, not sure if that one
is never used by strptime because %P isn't handled by strptime.
Anyway, the right thing to handle even %p%I would be to pass some state
around through all the _M_extract_via_format calls like glibc passes
struct __strptime_state
{
unsigned int have_I : 1;
unsigned int have_wday : 1;
unsigned int have_yday : 1;
unsigned int have_mon : 1;
unsigned int have_mday : 1;
unsigned int have_uweek : 1;
unsigned int have_wweek : 1;
unsigned int is_pm : 1;
unsigned int want_century : 1;
unsigned int want_era : 1;
unsigned int want_xday : 1;
enum ptime_locale_status decided : 2;
signed char week_no;
signed char century;
int era_cnt;
} s;
around. That is for the %p case used like:
if (s.have_I && s.is_pm)
tm->tm_hour += 12;
during finalization, but handles tons of other cases which it is unclear
if libstdc++ needs or doesn't need to handle, e.g. strptime if one
specifies year and yday computes wday/mon/day from it, etc. basically for
the redundant fields computes them from other fields if those have been
parsed and are sufficient to determine it.
To do this we'd need to change ABI for the _M_extract_via_format,
though sure, we could add a wrapper around the new one with the old
arguments that would just use a dummy state. And we'd need a new
_M_whatever finalizer that would do those post parsing tweaks.
Also, %% wasn't handled.
For a whitespace in the strings there was inconsistent behavior,
_M_extract_via_format would require exactly that whitespace char (say
matching space, or matching tab), while the caller follows what
https://eel.is/c++draft/locale.time.get#members-8.5 says, that
when encountering whitespace it skips whitespace in the format and
then whitespace in the input if any. I've changed _M_extract_via_format
to skip whitespace in the input (looping over format isn't IMHO necessary,
because next iteration of the loop will handle that too).
Tested on x86_64-linux by make check-target-libstdc++-v3, ok for trunk
if it passes full bootstrap/regtest?
For the new 3.cc testcases, I have included hopefully correctly
corresponding C testcase using strptime in an attachment, and to the
extent where it can be compared (e.g. strptime on failure just
returns NULL, doesn't tell where it exactly stopped) I think the
only difference is that
str = "Novembur";
format = "%bembur";
ret = strptime (str, format, &time);
case where strptime accepts it but there is no way to do it with input
operator.
I admit I don't have libc++ or other STL libraries around to be able to
check how much the new 3.cc matches or disagrees with other implementations.
Now, the things not handled by this patch but which should be fixed (I
probably need to go back to compiler work) or at least looked at:
1) seems %j, %r, %U, %w and %W aren't handled (not sure if all of them
are already in POSIX 2009 or some are later)
2) I haven't touched the %y/%Y/%C and year handling stuff, that is
definitely not matching what POSIX 2009 says:
C All but the last two digits of the year {2}; leading zeros shall be permitted but shall not be required. A leading '+' or '−' character shall be permitted before
any leading zeros but shall not be required.
y The last two digits of the year. When format contains neither a C conversion specifier nor a Y conversion specifier, values in the range [69,99] shall refer to
years 1969 to 1999 inclusive and values in the range [00,68] shall refer to years 2000 to 2068 inclusive; leading zeros shall be permitted but shall not be re‐
quired. A leading '+' or '−' character shall be permitted before any leading zeros but shall not be required.
Note: It is expected that in a future version of this standard the default century inferred from a 2-digit year will change. (This would apply to all commands
accepting a 2-digit year as input.)
Y The full year {4}; leading zeros shall be permitted but shall not be required. A leading '+' or '−' character shall be permitted before any leading zeros but
shall not be required.
I've tried to avoid making changes to _M_extract_num for these as well
to keep current status quo (the __len == 4 cases). One thing is what
to do for things with %C %y and/or %Y in the formats, another thing
is what to do in the methods that directly perform _M_extract_num
for year
3) the above question what to do for leading whitespace of any numbers
being parsed
4) the %p%I issue mentioned above and generally what to do if we
pass state and have finalizers at the end of parsing
5) _M_extract_via_format is also inconsistent with its callers on handling
the non-whitespace characters in between format specifiers, the caller
follows https://eel.is/c++draft/locale.time.get#members-8.6 and does
case insensitive comparison:
// TODO real case-insensitive comparison
else if (__ctype.tolower(*__s) == __ctype.tolower(*__fmt) ||
__ctype.toupper(*__s) == __ctype.toupper(*__fmt))
while _M_extract_via_format only compares exact characters:
// Verify format and input match, extract and discard.
if (__format[__i] == *__beg)
++__beg;
(another question is if there is a better way how to do real
case-insensitive comparison of 2 characters and whether we e.g. need
to handle the Turkish i/İ and ı/I which have different number of bytes
in UTF-8)
6) _M_extract_name does something weird for case-sensitivity,
// NB: Some of the locale data is in the form of all lowercase
// names, and some is in the form of initially-capitalized
// names. Look for both.
if (__beg != __end)
and
if (__c == __names[__i1][0]
|| __c == __ctype.toupper(__names[__i1][0]))
for the first letter while just
__name[__pos] == *__beg
on all the following letters. strptime says:
In case a text string (such as the name of a day of the week or a month
name) is to be matched, the comparison is case insensitive.
so supposedly all the _M_extract_name comparisons should be case
insensitive.
2021-12-10 Jakub Jelinek <jakub@redhat.com>
PR libstdc++/78714
* include/bits/locale_facets_nonio.tcc (_M_extract_via_format):
Mention in function comment it interprets strptime format string
rather than strftime. Handle %a and %A the same by accepting both
full and abbreviated names. Similarly handle %h, %b and %B the same.
Handle %d and %e the same by accepting possibly optional single space
and 1 or 2 digits. For %I store tm_hour 0 instead of tm_hour 12. For
%t and %n skip any whitespace. Handle %p and %%. For whitespace in
the string skip any whitespace.
(_M_extract_num): For __len == 2 accept 1 or 2 digits rather than
always 2. Don't punt early if __value * __mult is larget than __max
or smaller than __min - __mult, instead punt if __value > __max.
At the end verify __value is in between __min and __max and punt
otherwise.
(_M_extract_name): Allow non-unique names or names which are prefixes
of other names. Don't recompute lengths of names for every character.
* testsuite/22_locale/time_get/get/char/3.cc: New test.
* testsuite/22_locale/time_get/get/wchar_t/3.cc: New test.
* testsuite/22_locale/time_get/get_date/char/12791.cc (test01): Use
62 instead 60 and expect 6 to be accepted and thus *ret01 == '2'.
* testsuite/22_locale/time_get/get_date/wchar_t/12791.cc (test01):
Similarly.
* testsuite/22_locale/time_get/get_time/char/2.cc (test02): Add " PM"
to the string.
* testsuite/22_locale/time_get/get_time/char/5.cc (test01): Expect
tm_hour 1 rather than 0.
* testsuite/22_locale/time_get/get_time/wchar_t/2.cc (test02): Add
" PM" to the string.
* testsuite/22_locale/time_get/get_time/wchar_t/5.cc (test01): Expect
tm_hour 1 rather than 0.
-v needs to generate a -V not -v, as most/all other ports do.
The latter causes collect2 to output exec'd collect-ld with same
switches, which in turn causes a configure test which accumulates
linker switches to contain duplicates, leading to a libstdc++ configure
failure in some configurations.
-V is typically used in such contexts to output the available
emulations.
The change also removes reference to %(link_target), long obsolete.
2021-12-07 Doug Rupp <rupp@adacore.com>
* config/vxworks.h (LINK_SPEC): Remove %(link_target).
Change %{v:-v} to %{v:-V}.
Just redundant with the default Makefile setting.
2021-12-07 Olivier Hainque <hainque@adacore.com>
* config/t-vxworks: Remove assignment to STMP_FIXINC.
A mutex and condition variable is used for timed waits on atomics if
there is no "platform wait" (e.g. futex) supported. But the use of those
types wasn't guarded by the _GLIBCXX_HAS_GTHREADS macro, causing errors
for --disable-threads builds. This fix allows <atomic> to work on
targets with futexes but no gthreads.
libstdc++-v3/ChangeLog:
PR libstdc++/103638
* include/bits/atomic_timed_wait.h: Check _GLIBCXX_HAS_GTHREADS
before using std::mutex and std::__condvar.
If no OS function to sleep (e.g. nanosleep, usleep, Win32 Sleep etc.) is
available then configure defines the macro NO_SLEEP. But this will not
get prefixed with "_GLIBCXX_" because include/Makefile.am only does that
for macros beginning with "HAVE_". The configure script should define
_GLIBCXX_NO_SLEEP instead (which is what the code actually checks for).
libstdc++-v3/ChangeLog:
* acinclude.m4 (GLIBCXX_ENABLE_LIBSTDCXX_TIME): Add _GLIBCXX_
prefix to NO_SLEEP macro.
* config.h.in: Regenerate.
* configure: Regenerate.
This removes ibm-ldouble.c and a few eabi crt files from the build
closure, which were producing objects we don't use anyway.
2021-12-07 Rasmus Villemoes <rv@rasmusvillemoes.dk>
libgcc/
* config/rs6000/t-vxworks: New file.
* config.host (powerpc*-*-vxworks*): Use it instead of
t-ppccomm.
Fixes:
FAIL: compiler driver --help=param option(s): "^ +-.*[^:.]$" absent from output: "
--param=max-inline-functions-called-once-loop-depth= Maximum loop depth of a call which is considered for inlining functions called once"
FAIL: compiler driver --help=params option(s): "[^.]$" absent from output: "e"
gcc/ChangeLog:
* params.opt: Add missing dot.
This patch fixes PR ipa/103061 which is P1 regression that shows up as
an ICE in ipa-modref-tree.c's insert_kill when compiling the CSiBE
benchmark. I believe the underlying cause is that the new kill tracking
functionality wasn't anticipating memory accesses that are zero bits
wide!?. The failing source code (test case) contains the unusual lines:
typedef struct { } spinlock_t;
and
q->lock = (spinlock_t) { };
Making spinlock_t larger, or removing the assignment work around the issue.
The one line patch below to useful_for_kill_p teaches IPA that a memory
write is only useful as a "kill" if it is more than zero bits wide.
In theory, the existing known_size_p (size) test is now redundant, as
poly_int64 currently uses the value -1 for unknown size values,
but the proposed change makes the semantics clear, and defends against
possible future changes in representation.
2021-12-10 Roger Sayle <roger@nextmovesoftware.com>
gcc/ChangeLog
PR ipa/103601
* ipa-modref-tree.h (useful_for_kill_p): Zero width accesses aren't
useful for kill tracking.
gcc/testsuite/ChangeLog
PR ipa/103601
* gcc.dg/ipa/pr103601.c: New test case.
Up to now the libgomp GCN plugin has been finding the offload variables
by using a symbol lookup, but the AMD runtime requires that the symbols are
global for that to work. This was ensured by mkoffload as a post-procssing
step, but the LLVM 13 assembler no longer accepts this in the case where the
variable was previously declared differently.
This patch switches to locating the symbols directly from the
offload_var_table, which means that only one symbol needs to be forced
global.
This changes breaks the libgomp image compatibility so GOMP_VERSION_GCN has
also been bumped.
gcc/ChangeLog:
* config/gcn/mkoffload.c (process_asm): Process the variable table
completely differently.
(process_obj): Encode the varaible data differently.
include/ChangeLog:
* gomp-constants.h (GOMP_VERSION_GCN): Bump.
libgomp/ChangeLog:
* plugin/plugin-gcn.c (struct gcn_image_desc): Remove global_variables.
(GOMP_OFFLOAD_load_image): Locate the offload variables via the
table, not individual symbols.
Check for PLUS_EXPR/MINUS_EXPR support in vectorizable_induction.
PR103523 is an ICE on valid code:
void d(float *a, float b, int c) {
float e;
for (; c; c--, e += b)
a[c] = e;
}
This is due to not checking for PLUS_EXPR support, which is missing in
VNx2sf mode. This causes an ICE at expand time. This patch adds a check
for support in vectorizable_induction.
gcc/ChangeLog:
PR tree-optimization/103523
* tree-vect-loop.c (vectorizable_induction): Check for
PLUS_EXPR/MINUS_EXPR support.
gcc/testsuite/ChangeLog:
* gcc.target/aarch64/pr103523.c: New test.
This was an oversight in the original commit adding wait/notify
to atomic<T>.
libstdc++-v3/ChangeLog:
PR libstdc++/102994
* include/bits/atomic_base.h (__atomic_base<_PTp*>::wait()):
Add const qualifier.
* include/std/atomic (atomic<_Tp*>::wait(), atomic_wait()):
Likewise.
* testsuite/29_atomics/atomic/wait_notify/102994.cc:
New test.
Silvermont has a special handle in add_stmt_cost function, because it has in
order SIMD pipeline. But for Tremont, its SIMD pipeline is out of order,
remove Tremont from this special handle.
gcc/ChangeLog
* config/i386/i386.c (ix86_vector_costs::add_stmt_cost): Remove Tremont.
Aligns all D defined methods to MINIMUM_METHOD_BOUNDARY, improving
interoperability with C++ methods.
gcc/d/ChangeLog:
* decl.cc (get_symbol_decl): Align methods to MINIMUM_METHOD_BOUNDARY.
Since r11-1571 (c++: Refinements to "more constrained") was changed in
the front end, the following comment from stl_iterator.h stopped being
true:
// These extra overloads are not needed in C++20, because the ones above
// are constrained with a requires-clause and so overload resolution will
// prefer them to greedy unconstrained function templates.
The requires-clause is no longer considered when comparing unrelated
function templates. That means that the constrained operator== specified
in the standard is no longer more constrained than the pathological
comparison operators defined in the testsuite_greedy_ops.h header. This
was causing several tests to FAIL in C++20 mode:
FAIL: 23_containers/deque/types/1.cc (test for excess errors)
FAIL: 23_containers/vector/types/1.cc (test for excess errors)
FAIL: 24_iterators/move_iterator/greedy_ops.cc (test for excess errors)
FAIL: 24_iterators/normal_iterator/greedy_ops.cc (test for excess errors)
FAIL: 24_iterators/reverse_iterator/greedy_ops.cc (test for excess errors)
The solution is to restore some of the non-standard comparison operators
that are more specialized than the greedy operators in the testsuite.
libstdc++-v3/ChangeLog:
* include/bits/stl_iterator.h (operator==, operator<=>): Define
overloads for homogeneous specializations of reverse_iterator,
__normal_iterator and move_iterator.
This test no longer has additional errors for C++20 mode, so remove the
dg-error that is now failing, and the unnecessary dg-prune-output.
libstdc++-v3/ChangeLog:
* testsuite/20_util/scoped_allocator/69293_neg.cc: Remove
dg-error for c++20.
This allows std::make_exception_ptr to be used in a translation unit
compiled with -fno-exceptions. This works because the new implementation
added for PR 68297 doesn't need to throw or catch anything. The catch is
there to handle exceptions from the constructor of the exception object,
which we can assume won't happen in a -fno-exceptions TU and so use the
__catch macro instead. If the constructor does throw (because it's
defined in a different TU which was compiled with exceptions enabled)
then that exception will propagate to the make_exception_ptr caller.
That seems acceptable for a program that is trying to mix & match TUs
compiled with and without exceptions, and using types that throw when
constructed. That should be rare, and can't reasonably be expected to
have sensible behaviour.
This also enables the new implementation for targets that use a
non-standard calling convention for the exceptionDestructor callback
(specifically, mingw, which uses __thiscall). All we need to do is mark
the __dest_thunk function template with the right calling convention.
Finally, the useless no-op definition of make_exception_ptr (which is
only used if both RTTI and exceptions are disabled) is marked
always_inline, to ensure that the linker won't keep that definition and
discard the functional ones when both definitions of the function are
present in the link. An alternative would be to add the abi_tag
attribute to the useless definition, but making it always_inline should
work, and it's small enough to always be inlined reliably.
libstdc++-v3/ChangeLog:
PR libstdc++/85813
* libsupc++/exception_ptr.h (__dest_thunk): Add macro for
destructor calling convention.
(make_exception_ptr): Enable non-throwing implementation for
-fno-exceptions and for non-standard calling conventions. Use
always_inline attribute on the useless no-rtti no-exceptions
definition.
* testsuite/18_support/exception_ptr/64241.cc: Add -fno-rtti so
the no-op implementation is still used.
This restores support for std::make_exception_ptr<E&> and for using
std::exception_ptr in C++98.
Because the new non-throwing implementation needs to use std::decay to
handle references the original throwing implementation is used for
C++98.
We also need to change the typeid expression so it doesn't yield the
dynamic type when the function parameter is a reference to a polymorphic
type. Otherwise the new exception object could be caught by any handler
matching the dynamic type, even though the actual exception object is
only a copy of the base class, sliced to the static type.
libstdc++-v3/ChangeLog:
PR libstdc++/103630
* libsupc++/exception_ptr.h (exception_ptr): Fix exception
specifications on inline definitions.
(make_exception_ptr): Decay the template parameter. Use typeid
of the static type.
* testsuite/18_support/exception_ptr/103630.cc: New test.
This implements my P2467R0 proposal to support opening an fstream in
exclusive mode. The new constant is also supported pre-C++23 as
std::ios_base::__noreplace.
This proposal hasn't been approved for C++23 yet, but I am confident it
will be, as this is restoring a feture found in pre-ISO C++ iostreams
implementations (and still present in the MSVC library as _Noreplace).
If the proposal fails for C++23 we can remove the ios::noreplace
name and just keep ios::__noreplace as an extension.
libstdc++-v3/ChangeLog:
PR libstdc++/59769
* config/io/basic_file_stdio.cc (fopen_mode): Add support for
exclusive mode.
* include/bits/ios_base.h (_S_noreplace): Define new enumerator.
(ios_base::__noreplace): Define.
(ios_base::noreplace): Define for C++23.
* include/std/version (__cpp_lib_ios_noreplace): Define.
* testsuite/27_io/basic_ofstream/open/char/noreplace.cc: New test.
* testsuite/27_io/basic_ofstream/open/wchar_t/noreplace.cc: New test.
std::condition_variable::wait(unique_lock<mutex>&) is incorrectly marked
noexcept, which means that the __forced_unwind exception used by NPTL
cancellation will terminate the process. It should allow exceptions to
pass through, so that a thread can be cleanly cancelled when waiting on
a condition variable.
The new behaviour is exported as a new version of the symbol, to avoid
an ABI break for existing code linked to the non-throwing definition of
the function. Code linked against older releases will have a reference
to the @GLIBCXX_3.4.11 version, andcode compiled against the new
libstdc++ will get a reference to the @@GLIBCXX_3.4.30 version.
libstdc++-v3/ChangeLog:
PR libstdc++/103382
* config/abi/pre/gnu.ver (GLIBCXX_3.4.11): Do not export old
symbol if .symver renaming is supported.
(GLIBCXX_3.4.30): Export new symbol if .symver renaming is
supported.
* doc/xml/manual/evolution.xml: Document change.
* doc/html/manual/api.html: Regenerate.
* include/bits/std_mutex.h (__condvar::wait, __condvar::wait_until):
Remove noexcept.
* include/std/condition_variable (condition_variable::wait):
Likewise.
* src/c++11/condition_variable.cc (condition_variable::wait):
Likewise.
* src/c++11/compatibility-condvar.cc (__nothrow_wait_cv::wait):
Define nothrow wrapper around std::condition_variable::wait and
export the old symbol as an alias to it.
* testsuite/30_threads/condition_variable/members/103382.cc: New test.
Inserting a pair<Key, Value> into a map<Key, Value> will allocate a new
node and construct a pair<const Key, Value> in the node, then check if
the Key is already present in the map. That is because pair<Key, Value>
is not the same type as the map's value_type. But it only differs in the
const-qualification on the Key, and so we should be able to do the
lookup directly, without allocating a new node. This avoids allocating
and then deallocating a node for the case where the key is already found
and nothing gets inserted.
We can take this optimization further and lookup the key directly for a
pair<Key, X>, pair<const Key, X>, pair<Key&, X> etc. for any X. A strict
reading of the standard says we can only do this when we know the
allocator won't do anything funky with the value when constructing a
pair<const Key, Value> from a slightly different type. Inserting that
type only requires the value_type to be Cpp17EmplaceInsertable into the
container, and that doesn't have any requirement that the value is
unchanged (unlike Cpp17CopyInsertable and Cpp17MoveInsertable). For that
reason, the optimization is only done for maps using std::allocator.
A similar optimization can be done for map.emplace(key, value) where the
first argument is similar to the key_type and so can be looked up
without allocating a new node and constructing a key_type.
Finally, both of the insert and emplace cases can use the same
optimization when key_type is a scalar type and some other scalar is
being passed as the insert/emplace argument. Converting from one scalar
type to another won't have surprising value-altering behaviour, and has
no side effects (unlike e.g. constructing a std::string from a const
char* argument, which might allocate).
We don't need to do this for std::multimap, because we always insert the
new node even if the key is already present. So there's no benefit to
doing the lookup before allocating the new node.
libstdc++-v3/ChangeLog:
PR libstdc++/92300
* include/bits/stl_map.h (insert(Pair&&), emplace(Args&&...)):
Check whether the arguments can be looked up directly without
constructing a temporary node first.
* include/bits/stl_pair.h (__is_pair): Move to here, from ...
* include/bits/uses_allocator_args.h (__is_pair): ... here.
* testsuite/23_containers/map/modifiers/emplace/92300.cc: New test.
* testsuite/23_containers/map/modifiers/insert/92300.cc: New test.
When non-const references, pointers or iterators are obtained to the
contents of a COW std::basic_string, the implementation has to assume it
could result in a write to the contents. If the string was previously
shared, it does the "copy-on-write" step of creating a new copy of the
data that is not shared by another object. It also marks the string as
"leaked", so that no future copies of it will share ownership either.
However, if the string is empty then the only character in the sequence
is the terminating null, and modifying that is undefined behaviour. This
means that non-const references/pointers/iterators to an empty string
are effectively const. Since no direct modification is possible, there
is no need to "leak" the string, it can be safely shared with other
objects. This avoids unnecessary allocations to create new copies of
empty strings that can't be modified anyway.
We already did this optimization for strings that share ownership of the
static _S_empty_rep() object, but not for strings that have non-zero
capacity, and not for fully-dynamic-strings (where the _S_empty_rep()
object is never used).
With this change we avoid two allocations in the return statement:
std::string s;
s.reserve(1); // allocate
std::string s2 = s;
std::string s3 = s;
return s[0] + s2[0] + s3[0]; // leak+allocate twice
libstdc++-v3/ChangeLog:
* include/bits/cow_string.h (basic_string::_M_leak_hard): Do not
reallocate an empty string.
These warnings are triggered by perfectly valid code using std::string.
They're particularly bad when --enable-fully-dynamic-string is used,
because even std::string().begin() will give a warning.
Use pragmas to stop the troublesome warnings for copies done by
std::char_traits.
libstdc++-v3/ChangeLog:
PR libstdc++/103332
PR libstdc++/102958
PR libstdc++/103483
* include/bits/char_traits.h: Suppress stringop and array-bounds
warnings.
The possible base classes of std::allocator are new_allocator and
malloc_allocator, which both cause a non-reserved name to be declared in
every program that includes the definition of std::allocator. This is
non-conforming.
This change replaces __gnu_cxx::new_allocator with std::__new_allocator
which is identical except for using a reserved name. The non-standard
extension __gnu_cxx::new_allocator is preserved as a thin wrapper over
std::__new_allocator. There is no problem with the extension using a
non-reserved name now that it's not included by default in other
headers.
The same change could be done to __gnu_cxx::malloc_allocator but as it's
not the default configuration it can wait.
libstdc++-v3/ChangeLog:
PR libstdc++/64135
* config/allocator/new_allocator_base.h: Include
<bits/new_allocator.h> instead of <ext/new_allocator.h>.
(__allocator_base): Use std::__new_allocator instead of
__gnu_cxx::new_allocator.
* doc/xml/manual/allocator.xml: Document new default base class
for std::allocator.
* doc/xml/manual/evolution.xml: Likewise.
* doc/html/*: Regenerate.
* include/Makefile.am: Add bits/new_allocator.h.
* include/Makefile.in: Regenerate.
* include/experimental/memory_resource (new_delete_resource):
Use std::__new_allocator instead of __gnu_cxx::new_allocator.
* include/ext/new_allocator.h (new_allocator): Derive from
std::__new_allocator. Move implementation to ...
* include/bits/new_allocator.h: New file.
* testsuite/20_util/allocator/64135.cc: New test.
as dicussed in PR ipa/103454 there are several benchmarks that regresses
for -finline-functions-called once. Runtmes:
- tramp3d with -Ofast. 31%
- exchange2 with -Ofast 11-21%
- roms O2 9%-10%
- tonto 2.5-3.5% with LTO
Build times:
- specfp2006 41% (mostly wrf that builds 71% faster)
- specint2006 1.5-3%
- specfp2017 64% (again mostly wrf)
- specint2017 2.5-3.5%
This patch adds two params to tweak the behaviour:
1) max-inline-functions-called-once-loop-depth limiting the loop depth
(this is useful primarily for exchange where the inlined function is in
loop depth 9)
2) max-inline-functions-called-once-insns
We already have large-function-insns/growth parameters, but these are
limiting also inlining small functions, so reducing them will regress
very large functions that are hot.
Because inlining functions called once is meant just as a cleanup pass
I think it makes sense to have separate limit for it.
gcc/ChangeLog:
2021-12-09 Jan Hubicka <hubicka@ucw.cz>
* doc/invoke.texi (max-inline-functions-called-once-loop-depth,
max-inline-functions-called-once-insns): New parameters.
* ipa-inline.c (check_callers): Handle
param_inline_functions_called_once_loop_depth and
param_inline_functions_called_once_insns.
(edge_badness): Fix linebreaks.
* params.opt (param=max-inline-functions-called-once-loop-depth,
param=max-inline-functions-called-once-insn): New params.
Resolves:
PR tree-optimization/103215 - bogus -Warray-bounds with two pointers with different offsets each
gcc/ChangeLog:
PR tree-optimization/103215
* pointer-query.cc (access_ref::merge_ref): Extend the offset and
size of the merged object instead of using the larger.
gcc/testsuite/ChangeLog:
PR tree-optimization/103215
* gcc.dg/Wstringop-overflow-58.c: Adjust and xfail expected warnings.
* gcc.dg/Wstringop-overflow-59.c: Same.
* gcc.dg/warn-strnlen-no-nul.c: Same.
* gcc.dg/Warray-bounds-91.c: New test.
* gcc.dg/Warray-bounds-92.c: New test.
* gcc.dg/Wstringop-overflow-85.c: New test.
* gcc.dg/Wstringop-overflow-87.c: New test.
This fixes a basic mistake in the relative path used to reference
a rs6000 specific Makefile fragment in the libgcc configuration bits
for powerpc*-vxworks7.
2021-01-14 Fred Konrad <konrad@adacore.com>
libgcc/
* config.host (powerpc*-wrs-vxworks7*): Fix path to
rs6000/t-ppc64-fp, relative to config/ not libgcc/.
On Thu, Dec 09, 2021 at 05:42:10PM +0100, Christophe Lyon wrote:
> This also broke aarch64 I think:
> In file included from
> /tmp/6140018_6.tmpdir/aci-gcc-fsf/sources/gcc-fsf/gccsrc/gcc/config/aarch64/aarch64-sve-builtins.cc:3920:0:
> ./gt-aarch64-sve-builtins.h: In function 'void
> gt_pch_p_19registered_function(void*, void*, gt_pointer_operator, void*)':
> ./gt-aarch64-sve-builtins.h:86:44: error: no matching function for call to
> 'gt_pch_nx(aarch64_sve::function_instance*, void (*&)(void*, void*, void*),
> void*&)'
> gt_pch_nx (&((*x).instance), op, cookie);
Fixed thusly.
2021-12-09 Jakub Jelinek <jakub@redhat.com>
PR pch/71934
* config/aarch64/aarch64-sve-builtins.cc (gt_pch_nx): Change type of
second argument from function with 2 pointer arguments to function
with 3 pointer arguments.
This change tightens the CPU macro definitions issued
for VxWorks system headers on aarch64 to incorporate
the common VX_CPU_PREFIX facility, as the powerpc port
does.
The net effect for current configurations is the addition
of an actual "_VX_" prefix to the references to architecture
representative values. The absence of this prefix is most
often compensated for in system headers, but not always (when
going through particular #include paths), and this caused
a couple of spurious test failures.
2021-12-09 Olivier Hainque <hainque@adacore.com>
gcc/
* config/aarch64/aarch64-vxworks.h (TARGET_OS_CPP_BUILTINS):
Use VX_CPU_PREFIX in CPU definitions.
gcc/ChangeLog:
* pointer-query.cc (access_ref::dump): Define new function
(pointer_query::dump): Call it.
* pointer-query.h (access_ref::dump): Declare new function.
gcc/ChangeLog:
* pointer-query.cc (compute_objsize_r): Add an argument.
(gimple_call_return_array): Pass a new argument to compute_objsize_r.
(access_ref::merge_ref): Same.
(access_ref::inform_access): Add an argument and use it.
(access_data::access_data): Initialize new member.
(handle_min_max_size): Pass a new argument to compute_objsize_r.
(handle_decl): New function.
(handle_array_ref): Pass a new argument to compute_objsize_r.
Avoid incrementing deref.
(set_component_ref_size): New function.
(handle_component_ref): New function.
(handle_mem_ref): Pass a new argument to compute_objsize_r.
Only increment deref after successfully computing object size.
(handle_ssa_name): New function.
(compute_objsize_r): Move code into helpers and call them.
(compute_objsize): Pass a new argument to compute_objsize_r.
* pointer-query.h (access_ref::inform_access): Add an argument.
(access_data::ostype): New member.
gcc/ChangeLog:
* pointer-query.cc (access_ref::merge_ref): Define new function.
(access_ref::get_ref): Move code into merge_ref and call it.
* pointer-query.h (access_ref::merge_ref): Declare new function.
In C++23, auto(x) is valid, so decltype(auto(x)) should also be valid,
so
void f(decltype(auto(0)));
should be just as
void f(int);
but currently, everytime we see 'auto' in a parameter-declaration-clause,
we try to synthesize_implicit_template_parm for it, creating a new template
parameter list. The code above actually has us calling s_i_t_p twice;
once from cp_parser_decltype_expr -> cp_parser_postfix_expression which
fails and then again from cp_parser_decltype_expr -> cp_parser_expression.
So it looks like we have f<auto, auto> and we accept ill-formed code.
This shows that we need to be more careful about synthesizing the
implicit template parameter. [dcl.spec.auto.general] says that "A
placeholder-type-specifier of the form type-constraintopt auto can be
used as a decl-specifier of the decl-specifier-seq of a
parameter-declaration of a function declaration or lambda-expression..."
so this patch turns off auto_is_... after we've parsed the decl-specifier-seq.
That doesn't quite cut it yet though, because we also need to handle an
auto nested in the decl-specifier:
void f(decltype(new auto{0}));
therefore the cp_parser_decltype change.
To accept "sizeof(auto{10})", the cp_parser_type_id_1 hunk only gives a
hard error when we're not parsing tentatively.
The cp_parser_parameter_declaration hunk broke lambda-generic-85713-2.C but
I think the error we issue with this patch is in fact correct, and clang++
agrees.
The r11-1913 change is OK: we need to make sure that we see '(auto)' after
decltype to go ahead with 'decltype(auto)'.
PR c++/103401
gcc/cp/ChangeLog:
* parser.c (cp_parser_decltype): Clear
auto_is_implicit_function_template_parm_p.
(cp_parser_type_id_1): Give errors only when !cp_parser_simulate_error.
(cp_parser_parameter_declaration): Clear
auto_is_implicit_function_template_parm_p after parsing the
decl-specifier-seq.
(cp_parser_sizeof_operand): Clear
auto_is_implicit_function_template_parm_p.
gcc/testsuite/ChangeLog:
* g++.dg/cpp1y/lambda-generic-85713-2.C: Add dg-error.
* g++.dg/cpp1y/pr60054.C: Adjust dg-error.
* g++.dg/cpp1y/pr60332.C: Likewise.
* g++.dg/cpp2a/concepts-pr84979-2.C: Likewise.
* g++.dg/cpp2a/concepts-pr84979-3.C: Likewise.
* g++.dg/cpp2a/concepts-pr84979.C: Likewise.
* g++.dg/cpp23/auto-fncast7.C: New test.
* g++.dg/cpp23/auto-fncast8.C: New test.
* g++.dg/cpp23/auto-fncast9.C: New test.
Some testcases for libgomp.c++ only works for non-shared address space offloading,
because it exercises the zero-length array section behavior for offloaded
address space, testing for NULL/non-NULL cases.
libgomp/ChangeLog:
* testsuite/libgomp.c++/target-lambda-1.C: Only run under
"target offload_device_nonshared_as"
* testsuite/libgomp.c++/target-this-3.C: Likewise.
* testsuite/libgomp.c++/target-this-4.C: Likewise.
This change arranges to provide the vxworks alternate stdint.h
at build time instead of at install time, so it is used instead
of the system one while building the libraries.
This is a lot more consistent and helps the build on configurations
where the system does not come with stdint.h at all.
The change uses a similar mechanism as the one previsouly introduced
for glimits.h and takes the opportunity to simplify the glimits.h
command to use an automatic variable.
This introduces an indirect dependency on the VxWorks version.h
for vxcrtstuff objects, for which we then need to apply the same
tricks as for libgcc2 regarding include paths (to select the system
header instead of the gcc one).
2021-02-12 Olivier Hainque <hainque@adacore.com>
Rasmus Villemoes <rv@rasmusvillemoes.dk>
gcc/
* Makefile.in (T_STDINT_GCC_H): New variable, path to
stdint-gcc.h that a target configuration may override when
use_gcc_stdint is "provide".
(stmp-int-hdrs): Depend on it and copy that for
USE_GCC_INT=provide.
* config.gcc (vxworks): Revert to use_gcc_stdint=provide.
* config/t-vxworks (T_STDINT_GCC_H): Define, as vxw-stdint-gcc.h.
(vxw-stdint-gcc.h): New target, produced from the original
stdint-gcc.h.
(vxw-glimits.h): Use an automatic variable to designate the
first and only prerequisite.
* config/vxworks/stdint.h: Remove.
libgcc/
* config/t-vxworks: Set CRTSTUFF_T_CFLAGS to
$(LIBGCC2_INCLUDES).
* config/t-vxworks7: Likewise.
Now we have a relocatable PCH implementation we can revise the
hooks that find and use the mmapped memory. Specifically, this
removes the extra checking and diagnostic output for cases that
were likely to fail in a non-relocatable scenario.
Signed-off-by: Iain Sandoe <iain@sandoe.co.uk>
gcc/ChangeLog:
PR pch/71934
* config/host-darwin.c (SAFE_ALLOC_SIZE): Remove.
(darwin_gt_pch_get_address): Rework for relocatable PCH.
(darwin_gt_pch_use_address): Likewise.
In the last change, I've changed the arguments from void * to void *&,
but missed the fact that these hooks will in that case update the value
the caller will see in an undesirable way.
2021-12-09 Jakub Jelinek <jakub@redhat.com>
PR pch/71934
* config/host-darwin.c (darwin_gt_pch_use_address): When reading
manually the file into mapped area, update mapped_addr as
an automatic variable rather than addr which is a reference parameter.
* config/host-hpux.c (hpux_gt_pch_use_address): When reading
manually the file into mapped area, update addr as
an automatic variable rather than base which is a reference parameter.
