I was looking at Fortran PR 96983, which fails on the PowerPC when trying to
run the test PR96711.F90. The compiler ICEs because the PowerPC does not have
a floating point type with a type precision of 128. The reason is that the
PowerPC has 3 different 128 bit floating point types (__float128/_Float128,
__ibm128, and long double). Currently long double uses the IBM extended double
type, but we would like to switch to using IEEE 128-bit long doubles in the
future.
In order to prevent the compiler from converting explicit __ibm128 types to
long double when long double uses the IEEE 128-bit representation, we have set
up the precision for __ibm128 to be 128, long double to be 127, and
__float128/_Float128 to be 126.
Originally, I was trying to see if for Fortran, I could change the precision of
long double to be 128 (Fortran doesn't access __ibm128), but it quickly became
hard to get the changes to work.
I looked at the Fortran code in build_round_expr, and I came to the conclusion
that there is no reason to promote the floating point type. If you just do a
normal round of the value using the current floating point format and then
convert it to the integer type. We don't have an appropriate built-in function
that provides the equivalent of llround for 128-bit integer types.
This patch fixes the compiler crash.
However, while with this patch, the PowerPC compiler will not crash when
building the test case, it will not run on the current default installation.
The failure is because the test is explicitly expecting 128-bit floating point
to handle 10384593717069655257060992658440192_16 (i.e. 2**113).
By default, the PowerPC uses IBM extended double used for 128-bit floating
point. The IBM extended double format is a pair of doubles that provides more
mantissa bits but does not grow the expoenent range. The value in the test is
fine for IEEE 128-bit floating point, but it is too large for the PowerPC
extended double setup.
I have built the following tests with this patch:
* I have built a bootstrap compiler on a little endian power9 Linux system
with the default long double format (IBM extended double). The
pr96711.f90 test builds, but it does not run due to the range of the
real*16 exponent. There were no other regressions in the C/C++/Fortran
tests.
* I have built a bootstrap compiler on a little endian power9 Linux system
with the default long double format set to IEEE 128-bit. I used the
Advance Toolchain 14.0-2 to provide the IEEE 128-bits. The compiler was
configured to build power9 code by default, so the test generated native
power9 IEEE 128-bit instructions. The pr96711.f90 test builds and runs
correctly in this setup.
* I have built a bootstrap compiler on a big endian power8 Linux system with
the default long double format (IBM extended double). Like the first
case, the pr96711.f90 test does not crash the compiler, but the test fails
due to the range of the real*16 exponent. There were no other
regressions in the C/C++/Fortran tests.
* I built a bootstrap compiler on my x86_64 laptop. There were no
regressions in the tests.
gcc/fortran/
2021-04-21 Michael Meissner <meissner@linux.ibm.com>
PR fortran/96983
* trans-intrinsic.c (build_round_expr): If int type is larger than
long long, do the round and convert to the integer type. Do not
try to find a floating point type the exact size of the integer
type.
A change was made to __atomic_semaphore::_S_do_try_acquire() to
(ideally) let the compare_exchange reload the value of __old rather than
always reloading it twice. This causes _M_acquire to spin indefinitely
if the value of __old is already 0.
libstdc++-v3/ChangeLog:
* include/bits/semaphore_base.h: Always reload __old in
__atomic_semaphore::_S_do_try_acquire().
* testsuite/30_threads/stop_token/stop_callback/destroy.cc:
re-enable testcase.
The changes from r12-36-g1751bec027f030515889fcf4baa9c91501aafc85
did not remove the uses of TARGET_ISA_* from i386/darwin.h.
Fixed thus.
gcc/ChangeLog:
* config/i386/darwin.h (TARGET_64BIT): Remove definition
based on TARGET_ISA_64BIT.
(TARGET_64BIT_P): Remove definition based on
TARGET_ISA_64BIT_P().
For the tests modified below, the effective target line has to be effective
when compiling for an offload target, except that variable-not-offloaded.c
would compile with unified-share memory and pr86416-*.c if long double/float128
is supported.
The previous check used a run-time device ability check. This new variant
now enables those dg- lines when _compiling_ for nvptx or gcn.
libgomp/ChangeLog:
* testsuite/lib/libgomp.exp (offload_target_to_openacc_device_type):
New, based on check_effective_target_offload_target_nvptx.
(check_effective_target_offload_target_nvptx): Call it.
(check_effective_target_offload_target_amdgcn): New.
* testsuite/libgomp.c-c++-common/function-not-offloaded.c:
Require target offload_target_nvptx || offload_target_amdgcn.
* testsuite/libgomp.c-c++-common/variable-not-offloaded.c: Likewise.
* testsuite/libgomp.c/pr86416-1.c: Likewise.
* testsuite/libgomp.c/pr86416-2.c: Likewise.
In order for GDB to auto-load the pretty printers, they must be installed
as "libstdc++.$ext-gdb.py", where 'libstdc++.$ext' is the name of the
object file that is loaded by GDB [1], i.e. the libstdc++ shared library.
The approach taken in libstdc++-v3/python/Makefile.am is to loop over
files matching 'libstdc++*' in $(DESTDIR)$(toolexeclibdir) and choose
the last file matching that glob that is not a symlink, the Libtool
'*.la' file or a Python file.
That works fine for ELF targets where the matching names are:
libstdc++.a
libstdc++.so
libstdc++.so.6
libstdc++.so.6.0.29
But not for macOS with:
libstdc++.6.dylib
libstdc++.a
Or MinGW with:
libstdc++-6.dll
libstdc++.dll.a
Try to make a better job at installing the pretty printers with the
correct name by copying the approach taken by isl [2], that is, using
a sed invocation on the Libtool-generated 'libstdc++.la' to read the
correct name for the current platform.
[1] https://sourceware.org/gdb/onlinedocs/gdb/objfile_002dgdbdotext-file.html
[2] https://repo.or.cz/isl.git/blob/HEAD:/Makefile.am#l611
libstdc++-v3/ChangeLog:
PR libstdc++/99453
* python/Makefile.am: Install libstdc++*-gdb.py more robustly.
* python/Makefile.in: Regenerate.
Co-authored-by: Jonathan Wakely <jwakely@redhat.com>
In r11-2064 I made cp_parser_enum_specifier commit to tentative parse
when seeing a '{'. That still looks like the correct thing to do, but
it caused an ICE-on-invalid as well as accepts-invalid.
When we have something sneaky like this, which is broken in multiple
ways:
template <class>
enum struct c : union enum struct c { e = b, f = a };
we parse the "enum struct c" part (that's OK) and then we see that
we have an enum-base, so we consume ':' and then parse the type-specifier
that follows the :. "union enum" is clearly invalid, but we're still
parsing tentatively and we parse everything up to the ;, and then
throw away the underlying type. We parsed everything because we were
tricked into parsing an enum-specifier in an enum-base of another
enum-specifier! Not good.
Since the grammar for enum-base doesn't allow a defining-type-specifier,
only a type-specifier, we should set type_definition_forbidden_message
which fixes all the problems in this PR.
gcc/cp/ChangeLog:
PR c++/96380
* parser.c (cp_parser_enum_specifier): Don't allow defining
types in enum-base.
gcc/testsuite/ChangeLog:
PR c++/96380
* g++.dg/cpp0x/enum_base4.C: New test.
* g++.dg/cpp0x/enum_base5.C: New test.
This fixes:
lto-plugin.c:642:7: warning: adding 'int' to a string does not append to the string [-Wstring-plus-int]
lto-plugin/ChangeLog:
* lto-plugin.c (exec_lto_wrapper): Make a temp variable.
I was wondering why the (now fixed) c-c++-common/attr-retain-[78].c
failures were showing up in the native results for aarch64-linux-gnu
but not in the posted cross results. It turns out that .init/
.fini_array support is disabled by default for cross builds,
which in turn stops those tests from running.
The test for .init/fini_array support has two parts: one that builds
something with the assembler and linker, and another that compiles
C code and uses preprocessor macros to test the glibc version.
The first test would work with build=host but the second is only
safe for build=target.
However, AArch64 postdates glibc and binutils support for
.init/fini_array by some distance, so it's safe to hard-code the
result to "yes" for cross compilers.
This fixes the only material difference in auto-host.h between
a native and a cross build.
gcc/
* acinclude.m4 (gcc_AC_INITFINI_ARRAY): When cross-compiling,
default to yes for aarch64-linux-gnu.
* configure: Regenerate.
gcc/ChangeLog:
* config/i386/i386.c: Remove superfluous || TARGET_MACHO
which remains to be '(... || 0)' and clang complains about it.
* dwarf2out.c (AT_vms_delta): Declare conditionally.
(add_AT_vms_delta): Likewise.
* tree.c (fld_simplified_type): Use rather more common pattern
for disabling of something (#if 0).
(get_tree_code_name): Likewise.
(verify_type_variant): Likewise.
This patch fixes PR99988 which shows us generating large (> 250)
sequences of back-to-back bti j instructions.
The fix is simply to avoid inserting bti j instructions at the target of
a jump table if we've already inserted one for a given label.
gcc/ChangeLog:
PR target/99988
* config/aarch64/aarch64-bti-insert.c (aarch64_bti_j_insn_p): New.
(rest_of_insert_bti): Avoid inserting duplicate bti j insns for
jump table targets.
gcc/testsuite/ChangeLog:
PR target/99988
* gcc.target/aarch64/pr99988.c: New test.
Add -mmwait so that the MWAIT and MONITOR intrinsics can be used with
-mgeneral-regs-only and make -msse3 to imply -mmwait.
gcc/
* config.gcc: Install mwaitintrin.h for i[34567]86-*-* and
x86_64-*-* targets.
* common/config/i386/i386-common.c (OPTION_MASK_ISA2_MWAIT_SET):
New.
(OPTION_MASK_ISA2_MWAIT_UNSET): Likewise.
(ix86_handle_option): Handle -mmwait.
* config/i386/i386-builtins.c (ix86_init_mmx_sse_builtins):
Replace OPTION_MASK_ISA_SSE3 with OPTION_MASK_ISA2_MWAIT on
__builtin_ia32_monitor and __builtin_ia32_mwait.
* config/i386/i386-options.c (isa2_opts): Add -mmwait.
(ix86_valid_target_attribute_inner_p): Likewise.
(ix86_option_override_internal): Enable mwait/monitor
instructions for -msse3.
* config/i386/i386.h (TARGET_MWAIT): New.
(TARGET_MWAIT_P): Likewise.
* config/i386/i386.opt: Add -mmwait.
* config/i386/mwaitintrin.h: New file.
* config/i386/pmmintrin.h: Include <mwaitintrin.h>.
* config/i386/sse.md (sse3_mwait): Replace TARGET_SSE3 with
TARGET_MWAIT.
(@sse3_monitor_<mode>): Likewise.
* config/i386/x86gprintrin.h: Include <mwaitintrin.h>.
* doc/extend.texi: Document mwait target attribute.
* doc/invoke.texi: Document -mmwait.
gcc/testsuite/
* gcc.target/i386/monitor-2.c: New test.
With -Werror=return-type we run into compile fails complaining about
missing return stmts.
2021-04-21 Richard Biener <rguenther@suse.de>
PR testsuite/100176
* g++.dg/compat/struct-layout-1_generate.c: Add missing return.
* gcc.dg/compat/struct-layout-1_generate.c: Likewise.
The following testcase shows different behavior between -g and -g0
in constprop_register, if a flags register setter is separated
from a conditional jump using those flags with -g by a DEBUG_INSN.
As it uses just NEXT_INSN, for -g it will look at the DEBUG_INSN which is
not a conditional jump, while otherwise it would look at the conditional
jump and call cprop_jump.
2021-04-21 Jakub Jelinek <jakub@redhat.com>
PR rtl-optimization/100148
* cprop.c (constprop_register): Use next_nondebug_insn instead of
NEXT_INSN.
* g++.dg/opt/pr100148.C: New test.
> > The #error would not be hit if _GLIBCXX_HAVE_POSIX_SEMAPHORE were defined,
> > but it shows up in your error report.
> You now have pinpointed the problem.
> It's not that AIX doesn't have semaphore, but that the code previously
> had a fallback that hid a bug in the macros:
// Use futex if available and didn't force use of POSIX
using __fast_semaphore = __atomic_semaphore<__detail::__platform_wait_t>;
using __fast_semaphore = __platform_semaphore;
using __fast_semaphore = __atomic_semaphore<ptrdiff_t>;
> The problem is that libstdc++ configure defines
> _GLIBCXX_HAVE_POSIX_SEMAPHORE in config.h. libstdc++ uses sed to
> rewrite config.h to c++config.h and prepends _GLIBCXX_, so c++config.h
> contains
> And bits/semaphore_base.h is not testing that corrupted macro. Either
> semaphore_base.h needs to test for the corrupted macro, or libtsdc++
> configure needs to define HAVE_POSIX_SEMAPHORE without itself
> prepending _GLIBCXX_ so that the c++config.h rewriting works
> correctly and defines the correct macro for semaphore_base.h.
The include/Makefile.am sed is:
sed -e 's/HAVE_/_GLIBCXX_HAVE_/g' \
-e 's/PACKAGE/_GLIBCXX_PACKAGE/g' \
-e 's/VERSION/_GLIBCXX_VERSION/g' \
-e 's/WORDS_/_GLIBCXX_WORDS_/g' \
-e 's/_DARWIN_USE_64_BIT_INODE/_GLIBCXX_DARWIN_USE_64_BIT_INODE/g' \
-e 's/_FILE_OFFSET_BITS/_GLIBCXX_FILE_OFFSET_BITS/g' \
-e 's/_LARGE_FILES/_GLIBCXX_LARGE_FILES/g' \
-e 's/ICONV_CONST/_GLIBCXX_ICONV_CONST/g' \
-e '/[ ]_GLIBCXX_LONG_DOUBLE_COMPAT[ ]/d' \
-e '/[ ]_GLIBCXX_LONG_DOUBLE_ALT128_COMPAT[ ]/d' \
< ${CONFIG_HEADER} >> $@ ;\
so for many macros one needs _GLIBCXX_ prefixes already in configure,
as can be seen in grep AC_DEFINE.*_GLIBCXX configure.ac acinclude.m4
But _GLIBCXX_HAVE_POSIX_SEMAPHORE is the only one that shouldn't have
that prefix because the sed is adding that.
E.g. on i686-linux, I see
grep _GLIBCXX__GLIBCXX c++config.h
that proves it is the only broken one.
So this change fixes the acinclude.m4 side.
2021-04-21 Jakub Jelinek <jakub@redhat.com>
PR libstdc++/100164
* acinclude.m4: For POSIX semaphores AC_DEFINE HAVE_POSIX_SEMAPHORE
rather than _GLIBCXX_HAVE_POSIX_SEMAPHORE.
* configure: Regenerated.
* config.h.in: Regenerated.
This simplifies the maybe_fold_reference API reflecting that it
no longer canonicalizes refs (that's done with another function)
but only performs constant folding and thus does nothing for is_lhs.
This in turn allows to rip out quite some dead code and one user
of valid_gimple_rhs_p.
2021-04-16 Richard Biener <rguenther@suse.de>
* gimple-fold.c (maybe_fold_reference): Remove is_lhs
parameter (and assume it to be false).
(fold_gimple_assign): Adjust, remove all callers of
maybe_fold_reference calling it with is_lhs true.
(gimple_fold_call): Likewise.
(fold_stmt_1): Likewise.
The test fails for targets with V4QImode support which is the case for
IBM Z.
gcc/testsuite/ChangeLog:
* gcc.dg/vect/pr71264.c: Xfail on IBM Z due to V4QImode support.
This removes pedantic_non_lvalue_loc which doesn't do what it says
since quite some time in favor of what it actually does and where
that's not a duplicate (protected_set_expr_location_unshare).
2021-04-19 Richard Biener <rguenther@suse.de>
* fold-const.c (pedantic_non_lvalue_loc): Remove.
(fold_binary_loc): Adjust.
(fold_ternary_loc): Likewise.
switch_to_section warns if we try to output a retain decl in a
section without a retain flag, or if we try to output a non-retain
decl in a section with a retain flag. However, the warning only
applied if we were trying to “switch” to the current section.
This works if all decls that use a section are generated consecutively,
but not if there is an unrelated decl in between.
This patch makes the check unconditional, but suppresses the warning
if we're writing the section's named.decl (i.e. the decl from which
the section name and original flags were derived).
Also, the warning didn't fire for -fsection-anchors, for two reasons:
we allowed retain and non-retain decls to be put into the same block,
and we didn't pass a decl to switch_to_section.
Although these are arguably separate bugs, it isn't easy to fix them
independently without temporarily regressing -fsection-anchor targets.
gcc/
PR middle-end/100130
* varasm.c (get_block_for_decl): Make sure that any use of the
retain attribute matches the section's retain flag.
(switch_to_section): Check for retain mismatches even when
changing sections, but do not warn if the given decl is the
section's named.decl.
(output_object_block): Pass the first decl in the block (if any)
to switch_to_section.
gcc/testsuite/
PR middle-end/100130
* c-c++-common/attr-retain-10.c: New test.
* c-c++-common/attr-retain-11.c: Likewise.
On IBM Z the aliasing stores are realized through one element vector
instructions, if no cost model for vectorization is used which is the
default according to vect.exp. Fixed by changing the number of times
the pattern must be found in the dump.
gcc/testsuite/ChangeLog:
* gcc.dg/vect/bb-slp-39.c: Change number of times the pattern
must match for target IBM Z only.
As register names are required for darwin, but not accepted by gas
unless you use `-mregnames', they have been conditionally removed on
non-darwin targets.
To avoid duplicating large blocks of almost identical code, the inline
assembly is now statically generated.
libphobos/ChangeLog:
* libdruntime/core/thread/osthread.d (callWithStackShell): Statically
generate PPC and PPC64 asm implementations, and conditionally remove
PPC register names on non-Darwin targets.
These tests are currently failing, but should be analyzed and
re-enabled.
libstdc++-v3/ChangeLog:
* testsuite/30_threads/semaphore/try_acquire_for.cc: Disable
test for targets not using futexes for semaphores.
* testsuite/30_threads/semaphore/try_acquire_until.cc: Likewise.
* testsuite/30_threads/stop_token/stop_callback/destroy.cc:
Disable for all targets.
This is a substantial rewrite of the atomic wait/notify (and timed wait
counterparts) implementation.
The previous __platform_wait looped on EINTR however this behavior is
not required by the standard. A new _GLIBCXX_HAVE_PLATFORM_WAIT macro
now controls whether wait/notify are implemented using a platform
specific primitive or with a platform agnostic mutex/condvar. This
patch only supplies a definition for linux futexes. A future update
could add support __ulock_wait/wake on Darwin, for instance.
The members of __waiters were lifted to a new base class. The members
are now arranged such that overall sizeof(__waiter_pool_base) fits in
two cache lines (on platforms with at least 64 byte cache lines). The
definition will also use destructive_interference_size for this if it is
available.
The __waiters type is now specific to untimed waits, and is renamed to
__waiter_pool. Timed waits have a corresponding __timed_waiter_pool
type. Much of the code has been moved from the previous __atomic_wait()
free function to the __waiter_base template and a __waiter derived type
is provided to implement the un-timed wait operations. A similar change
has been made to the timed wait implementation.
The __atomic_spin code has been extended to take a spin policy which is
invoked after the initial busy wait loop. The default policy is to
return from the spin. The timed wait code adds a timed backoff spinning
policy. The code from <thread> which implements this_thread::sleep_for,
sleep_until has been moved to a new <bits/std_thread_sleep.h> header
which allows the thread sleep code to be consumed without pulling in the
whole of <thread>.
The entry points into the wait/notify code have been restructured to
support either -
* Testing the current value of the atomic stored at the given address
and waiting on a notification.
* Applying a predicate to determine if the wait was satisfied.
The entry points were renamed to make it clear that the wait and wake
operations operate on addresses. The first variant takes the expected
value and a function which returns the current value that should be used
in comparison operations, these operations are named with a _v suffix
(e.g. 'value'). All atomic<_Tp> wait/notify operations use the first
variant. Barriers, latches and semaphores use the predicate variant.
This change also centralizes what it means to compare values for the
purposes of atomic<T>::wait rather than scattering through individual
predicates.
This change also centralizes the repetitive code which adjusts for
different user supplied clocks (this should be moved elsewhere
and all such adjustments should use a common implementation).
This change also removes the hashing of the pointer and uses
the pointer value directly for indexing into the waiters table.
libstdc++-v3/ChangeLog:
* include/Makefile.am: Add new <bits/this_thread_sleep.h> header.
* include/Makefile.in: Regenerate.
* include/bits/this_thread_sleep.h: New file.
* include/bits/atomic_base.h: Adjust all calls
to __atomic_wait/__atomic_notify for new call signatures.
* include/bits/atomic_timed_wait.h: Extensive rewrite.
* include/bits/atomic_wait.h: Likewise.
* include/bits/semaphore_base.h: Adjust all calls
to __atomic_wait/__atomic_notify for new call signatures.
* include/std/atomic: Likewise.
* include/std/barrier: Likewise.
* include/std/latch: Likewise.
* include/std/semaphore: Likewise.
* include/std/thread (this_thread::sleep_for)
(this_thread::sleep_until): Move to new header.
* testsuite/29_atomics/atomic/wait_notify/bool.cc: Simplify
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/29_atomics/atomic_ref/wait_notify.cc: Likewise.
There are various non-IBM CPUs with isel as well, so it is easiest if we
just don't consider that flag here (it is not needed).
2021-04-20 Segher Boessenkool <segher@kernel.crashing.org>
PR target/100108
* config/rs6000/rs6000.c (rs6000_machine_from_flags): Do not consider
OPTION_MASK_ISEL.
This implements the wording changes of P2259R1 "Repairing input range
adaptors and counted_iterator", which resolves LWG 3283, 3289 and 3408.
The wording changes are relatively straightforward, but they require
some boilerplate to implement: the changes to make a type alias
"conditionally present" in some iterator class are realized by defining
a base class template and an appropriately constrained partial
specialization thereof that contains the type alias, and having the
iterator class derive from this base class. Sometimes the relevant
condition depend on members from the iterator class, but because a
class is incomplete when instantiating its bases, the constraints on
the partial specialization can't use anything from the iterator class.
This patch works around this by hoisting these members out to the
enclosing scope (e.g. transform_view::_Iterator::_Base is hoisted out
to transform_view::_Base so that transform_view::__iter_cat can use it).
This patch also implements the proposed resolution of LWG 3291 to rename
iota_view::iterator_category to iota_view::iterator_concept, which was
previously problematic due to LWG 3408.
libstdc++-v3/ChangeLog:
PR libstdc++/95983
* include/bits/stl_iterator.h (__detail::__move_iter_cat):
Define.
(move_iterator): Derive from the above in C++20 in order to
conditionally define iterator_category as per P2259.
(move_iterator::__base_cat): No longer used, so remove.
(move_iterator::iterator_category): Remove in C++20.
(__detail::__common_iter_use_postfix_proxy): Define.
(common_iterator::_Proxy): Rename to ...
(common_iterator:__arrow_proxy): ... this.
(common_iterator::__postfix_proxy): Define as per P2259.
(common_iterator::operator->): Adjust.
(common_iterator::operator++): Adjust as per P2259.
(iterator_traits<common_iterator>::_S_iter_cat): Define.
(iterator_traits<common_iterator>::iterator_category): Change as
per P2259.
(__detail::__counted_iter_value_type): Define.
(__detail::__counted_iter_concept): Define.
(__detail::__counted_iter_cat): Define.
(counted_iterator): Derive from the above three classes in order
to conditionally define value_type, iterator_concept and
iterator category respectively as per P2259.
(counted_iterator::operator->): Define as per P2259.
(incrementable_traits<counted_iterator>): Remove as per P2259.
(iterator_traits<counted_iterator>): Adjust as per P2259.
* include/std/ranges (__detail::__iota_view_iter_cat): Define.
(iota_view::_Iterator): Derive from the above in order to
conditionally define iterator_category as per P2259.
(iota_view::_S_iter_cat): Rename to ...
(iota_view::_S_iter_concept): ... this.
(iota_view::iterator_concept): Use it to apply LWG 3291 changes.
(iota_view::iterator_category): Remove.
(__detail::__filter_view_iter_cat): Define.
(filter_view::_Iterator): Derive from the above in order to
conditionally define iterator_category as per P2259.
(filter_view::_Iterator): Move to struct __filter_view_iter_cat.
(filter_view::_Iterator::iterator_category): Remove.
(transform_view::_Base): Define.
(transform_view::__iter_cat): Define.
(transform_view::_Iterator): Derive from the above in order to
conditionally define iterator_category as per P2259.
(transform_view::_Iterator::_Base): Just alias
transform_view::_Base.
(transform_view::_Iterator::_S_iter_cat): Move to struct
transform_view::__iter_cat.
(transform_view::_Iterator::iterator_category): Remove.
(transform_view::_Sentinel::_Base): Just alias
transform_view::_Base.
(join_view::_Base): Define.
(join_view::_Outer_iter): Define.
(join_view::_Inner_iter): Define.
(join_view::_S_ref_is_glvalue): Define.
(join_view::__iter_cat): Define.
(join_view::_Iterator): Derive from it in order to conditionally
define iterator_category as per P2259.
(join_view::_Iterator::_Base): Just alias join_view::_Base.
(join_view::_Iterator::_S_ref_is_glvalue): Just alias
join_view::_S_ref_is_glvalue.
(join_view::_Iterator::_S_iter_cat): Move to struct
transform_view::__iter_cat.
(join_view::_Iterator::_Outer_iter): Just alias
join_view::_Outer_iter.
(join_view::_Iterator::_Inner_iter): Just alias
join_view::_Inner_iter.
(join_view::_Iterator::iterator_category): Remove.
(join_view::_Sentinel::_Base): Just alias join_view::_Base.
(__detail::__split_view_outer_iter_cat): Define.
(__detail::__split_view_inner_iter_cat): Define.
(split_view::_Base): Define.
(split_view::_Outer_iter): Derive from __split_view_outer_iter_cat
in order to conditionally define iterator_category as per P2259.
(split_view::_Outer_iter::iterator_category): Remove.
(split_view::_Inner_iter): Derive from __split_view_inner_iter_cat
in order to conditionally define iterator_category as per P2259.
(split_view::_Inner_iter::_S_iter_cat): Move to
__split_view_inner_iter_cat.
(split_view::_Inner_iter::iterator_category): Remove.
(elements_view::_Base): Define.
(elements_view::__iter_cat): Define.
(elements_view::_Iterator): Derive from the above in order to
conditionall define iterator_category as per P2259.
(elements_view::_Iterator::_Base): Just alias
elements_view::_Base.
(elements_view::_Iterator::_S_iter_concept)
(elements_view::_Iterator::iterator_concept): Define as per
P2259.
(elements_view::_Iterator::iterator_category): Remove.
(elements_view::_Sentinel::_Base): Just alias
elements_view::_Base.
* testsuite/24_iterators/headers/iterator/synopsis_c++20.cc:
Adjust constraints on iterator_traits<counted_iterator>.
* testsuite/std/ranges/p2259.cc: New test.
Another construct we need to look inside.
gcc/cp/ChangeLog:
PR c++/100109
* pt.c (find_parameter_packs_r): Look into enum initializers.
gcc/testsuite/ChangeLog:
PR c++/100109
* g++.dg/cpp0x/lambda/lambda-variadic14.C: New test.
This defines the feature test macro when uselocale is available, because
the floating-point std::from_chars support currently depends on that.
Co-authored-by: Jakub Jelinek <jakub@redhat.com>
libstdc++-v3/ChangeLog:
PR libstdc++/100146
* include/std/charconv (__cpp_lib_to_chars): Define
conditionally.
* include/std/version (__cpp_lib_to_chars): Likewise..
* testsuite/20_util/from_chars/4.cc: Only check feature test
macro, not _GLIBCXX_HAVE_USELOCALE.
* testsuite/20_util/from_chars/5.cc: Likewise.
* testsuite/20_util/from_chars/6.cc: Likewise.
* testsuite/20_util/to_chars/long_double.cc: Likewise.
> 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.
