We're stripping conversions off access functions of inductions and
thus the step can be of different sign. Fix bogus step CTORs by
converting the elements rather than the whole vector.
2020-11-16 Richard Biener <rguenther@suse.de>
PR tree-optimization/97835
* tree-vect-loop.c (vectorizable_induction): Convert step
scalars rather than step vector.
* gcc.dg/vect/pr97835.c: New testcase.
This avoids passing NULL to expressions_equal_p.
2020-11-16 Richard Biener <rguenther@suse.de>
PR tree-optimization/97830
* tree-ssa-sccvn.c (vn_reference_eq): Check for incomplete
types before comparing TYPE_SIZE.
* gcc.dg/pr97830.c: New testcase.
PREFETCHW should be both in march=broadwell and march=silvermont.
I move PREFETCHW from march=broadwell to march=silvermont in previous
patch.
gcc/ChangeLog:
* config/i386/i386.h: Add PREFETCHW to march=broadwell.
* doc/invoke.texi: Put PREFETCHW back to relation arch.
The naming scheme used by GCC to reference MSP430 hardware multiply
library functions is inconsistent.
Sometimes the "GCC" names (e.g. mulsi2) are used, other times the
"MSPABI" names (e.g. __mspabi_mpyl) are used.
Also, sometimes an identifier for the hardware multiply support is
appended to the GCC name, when the functions are defined, but this is
not required.
This patch fixes those issues, so the names used to refer to the
hardware multiply library functions follow a consistent pattern.
gcc/ChangeLog:
* config/msp430/msp430.c (msp430_output_labelref): Don't process mspabi
hwmult library function names into GCC-style names.
libgcc/ChangeLog:
* config/msp430/lib2hw_mul.S: Omit _hw* suffix from GCC names for
hwmult library functions.
gcc/testsuite/ChangeLog:
* gcc.target/msp430/rtx-cost-Os-f5series.c: Adjust test to use new
hwmult library function name.
gcc/ChangeLog:
* config/msp430/msp430.c (msp430_use_16bit_hwmult): New.
(use_32bit_hwmult): Rename to..
(msp430_use_32bit_hwmult): ..this.
(msp430_muldiv_costs): Use msp430_use_16bit_hwmult and
msp430_use_32bit_hwmult.
(msp430_expand_helper): Use msp430_use_16bit_hwmult and
msp430_use_32bit_hwmult.
(msp430_output_labelref): Use msp430_use_32bit_hwmult.
ipa/modref-2.c output for Parm 1 depends on the word size. This patch
updates the testcase to expect the appropriate result for ilp32 and lp64.
gcc/testsuite/ChangeLog:
* gcc.dg/ipa/modref-2.c: Add ilp32 expected result.
gcc/testsuite:
* lib/scanasm.exp (parse_section_of_symbols): Also look for AIX
XCOFF CSECT notation.
* g++.dg/opt/const4.C: Also look for AIX XCOFF "[RO]".
* gcc.dg/20021029-1.c: Likewise.
* gcc.dg/array-quals-1.c: Likewise and "[RW]".
* g++.dg/gomp/tls-5.C: Also look for AIX XCOFF "[TL]".
* gcc.dg/pr25376.c: Accept AIX decoration around named section
and function descriptor.
Use `enum rtx_code' rather than `int' to hold the the RTL expression
code in `vax_rtx_costs', matching the type these codes have been defined
with and making debugging just a tiny little bit easier.
gcc/
* config/vax/vax.c (vax_rtx_costs): Use `rtx_code' rather than
`int' for `code'.
Correct a regression in `vax-netbsdelf' gcc testing:
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c: In function '__bswapdi2':
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c:5:19: error: use of C99 long long integer constant [-Wlong-long]
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c:6:14: error: use of C99 long long integer constant [-Wlong-long]
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c:7:14: error: use of C99 long long integer constant [-Wlong-long]
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c:8:14: error: use of C99 long long integer constant [-Wlong-long]
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c:9:14: error: use of C99 long long integer constant [-Wlong-long]
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c:10:14: error: use of C99 long long integer constant [-Wlong-long]
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c:11:14: error: use of C99 long long integer constant [-Wlong-long]
.../gcc/testsuite/gcc.target/vax/bswapdi-1.c:12:14: error: use of C99 long long integer constant [-Wlong-long]
compiler exited with status 1
FAIL: gcc.target/vax/bswapdi-1.c (test for excess errors)
which is due to the defaults from `vax.exp':
# If a testcase doesn't have special options, use these.
global DEFAULT_CFLAGS
if ![info exists DEFAULT_CFLAGS] then {
set DEFAULT_CFLAGS " -ansi -pedantic-errors"
}
Use an empty override then as the options used do not matter for the
objective of this test case.
gcc/testsuite/
* gcc.target/vax/bswapdi-1.c (dg-options): New setting.
Fix a typo in a NO_EXTERNAL_INDIRECT_ADDRESS macro check around an
assertion verifying DImode addition operands to be valid for PIC.
gcc/
* config/vax/vax.c (vax_output_int_add) <E_DImode>: Fix a typo
in NO_EXTERNAL_INDIRECT_ADDRESS.
Fix a typo and check both SImode addition operands for being incorrectly
symbolic in PIC mode before issuing a diagnostic dump of the offending
RTL expression.
gcc/
* config/vax/vax.c (vax_output_int_add) <E_SImode>: Also check
`operands[2]' for being symbolic with PIC rather than checking
`operands[1]' twice.
Abstract checking has been problematic for a while; when I implemented an
earlier issue resolution to do more checking it led to undesirable
instantiations, and so backed some of it out. During the C++20 process we
decided with P0929R2 that we should go the other way, and only check
abstractness when we're actually creating an object, not when merely forming
an array or function type. This means that we can remove the machinery for
checking whether a newly complete class makes some earlier declaration
ill-formed. This change was moved as a DR, so I'm applying it to all
standard levels. This could be reconsidered if it causes problems, but I
don't expect it to.
The change to the libstdc++ result_of test brings the expected behavior in
line with that for incomplete types, but as in PR97841 I think the libstdc++
handling of incomplete types in this and other type_traits is itself wrong,
so I expect these lines and others to change again before long.
gcc/cp/ChangeLog:
* decl.c (cp_finish_decl): Only check abstractness on definition.
(require_complete_types_for_parms): Check abstractness here.
(create_array_type_for_decl): Not here.
(grokdeclarator, grokparms, complete_vars): Not here.
* pt.c (tsubst, tsubst_arg_types, tsubst_function_type): Not here.
* typeck2.c (struct pending_abstract_type): Remove.
(struct abstract_type_hasher): Remove.
(abstract_pending_vars, complete_type_check_abstract): Remove.
(abstract_virtuals_error_sfinae): Handle arrays.
* call.c (conv_is_prvalue): Split out from...
(conv_binds_ref_to_prvalue): ...here.
(implicit_conversion_1): Rename from implicit_conversion.
(implicit_conversion): An abstract prvalue is bad.
(convert_like_internal): Don't complain if expr is already
error_mark_node.
gcc/testsuite/ChangeLog:
* g++.dg/other/abstract1.C: Adjust.
* g++.dg/other/abstract2.C: Adjust.
* g++.dg/other/abstract4.C: Adjust.
* g++.dg/other/abstract5.C: Adjust.
* g++.dg/other/abstract8.C: New test.
* g++.dg/template/sfinae-dr657.C: Adjust.
* g++.old-deja/g++.other/decl3.C: Adjust.
libstdc++-v3/ChangeLog:
* testsuite/20_util/result_of/sfinae_friendly_1.cc: Adjust.
Now that we know the vr_values and ranger versions are in sync, it is
safe to remove the vr_values version and just call the ranger one.
I am leaving the UBSAN bits in place since they make use of
relationals which are still not implemented in the ranger.
gcc/ChangeLog:
* vr-values.c (vr_values::extract_range_builtin): Rename to...
(vr_values::extract_range_from_ubsan_builtin): ...this.
Remove everything but UBSAN code.
(vr_values::extract_range_basic): Call ranger version for
everything except UBSAN built-ins.
* vr-values.h (class vr_values): Rename extract_range_builtin to
extract_range_from_ubsan_builtin.
gcc/ChangeLog:
* ipa-modref.c (analyze_ssa_name_flags): Make return to clear
EAF_UNUSED flag.
gcc/testsuite/ChangeLog:
* gcc.c-torture/execute/pr97836.c: New test.
The test needs to use Object rather than NSObject on this and earlier
OS versions. Although the PR reports against the GNU runtime, we run
this on NeXT as well.
gcc/testsuite/ChangeLog:
* objc.dg/pr23214.m: Use Object as the root object before
Darwin12 (and NSObject after).
A minimal patch for the EAF flags discovery. It works only in local ipa-modref
and gives up on cyclic SSA graphs. It improves pt_solution_includes
disambiguations twice.
gcc/Changelog:
* gimple.c: Include ipa-modref-tree.h and ipa-modref.h.
(gimple_call_arg_flags): Use modref to determine flags.
* ipa-modref.c: Include gimple-ssa.h, tree-phinodes.h,
tree-ssa-operands.h, stringpool.h and tree-ssanames.h.
(analyze_ssa_name_flags): Declare.
(modref_summary::useful_p): Summary is also useful if arg flags are
known.
(dump_eaf_flags): New function.
(modref_summary::dump): Use it.
(get_modref_function_summary): Be read for current_function_decl
being NULL.
(memory_access_to): New function.
(deref_flags): New function.
(call_lhs_flags): New function.
(analyze_parms): New function.
(analyze_function): Use it.
* ipa-modref.h (struct modref_summary): Add arg_flags.
* doc/invoke.texi (ipa-modref-max-depth): Document.
* params.opt (ipa-modref-max-depth): New param.
Aldy's PR71855 fix avoided emitting multiple redundant
DW_TAG_unspecified_parameters sub-DIEs of a single DIE by restricting
it to early dwarf only. That unfortunately means if we need to emit
another DIE for the function (whether it is for LTO, or e.g. because of
IPA cloning), we don't emit DW_TAG_unspecified_parameters, it remains
solely in the DW_AT_abstract_origin's referenced DIE.
But DWARF consumers don't really use DW_TAG_unspecified_parameters
from there, like we duplicate DW_TAG_formal_parameter sub-DIEs even in the
clones because either they have some more specific location, or e.g.
a function clone could have fewer or different argument types etc.,
they need to assume that originally stdarg function isn't later stdarg etc.
Unfortunately, while for DW_TAG_formal_parameter sub-DIEs, we can use the
hash tabs to look the PARM_DECLs if we already have the DIEs, for
DW_TAG_unspecified_parameters we don't have an easy way to look it up.
The following patch handles it by trying to figure out if we are creating a
fresh new DIE (in that case we add DW_TAG_unspecified_parameters if it is
stdarg), or if gen_subprogram_die is called again on an pre-existing DIE
to fill in some further details (then it will not touch it).
Except for lto, subr_die != old_die would be good enough, but unfortunately
for LTO the new DIE that will refer to early dwarf created DIE is created
on the fly during lookup_decl_die. So the patch tracks if the DIE has
no children before any children are added to it.
2020-11-14 Jakub Jelinek <jakub@redhat.com>
PR debug/97599
* dwarf2out.c (gen_subprogram_die): Call
gen_unspecified_parameters_die even if not early dwarf, but only
if subr_die is a newly created DIE.
- When expanding the call pattern, choose t1 register be a jump register.
Epilogue also uses a t1 register to adjust Stack point. The call pattern
and epilogue will initial t1 twice, if both are generated in the same
function. The call pattern will emit 'la t1,symbol' and 'jalr t1'instructions.
Epilogue also emits 'li t1,4096' and 'addi sp,sp,t1' instructions.
But li and addi instructions will be placed between la and jalr instructions.
The la instruction will be removed by some optimizations,
because t1 register define twice, the first define instruction look
likes duplicate.
- To resolve this issue, Prologue and Epilogue use the t0 register
be a temporary register, the call pattern use the t1 register be
a temporary register.
gcc/
2020-11-13 Monk Chiang <monk.chiang@sifive.com>
PR target/97682
* config/riscv/riscv.h (RISCV_PROLOGUE_TEMP_REGNUM): Change register
to t0.
(RISCV_CALL_ADDRESS_TEMP_REGNUM): New Marco, define t1 register.
(RISCV_CALL_ADDRESS_TEMP): Use it for call instructions.
* config/riscv/riscv.c (riscv_legitimize_call_address): Use
RISCV_CALL_ADDRESS_TEMP.
(riscv_compute_frame_info): Change temporary register to t0 form t1.
(riscv_trampoline_init): Adjust comment.
gcc/testsuite/
2020-11-13 Monk Chiang <monk.chiang@sifive.com>
PR target/97682
* g++.target/riscv/pr97682.C: New test.
* gcc.target/riscv/interrupt-3.c: Check register for t0.
* gcc.target/riscv/interrupt-4.c: Likewise.
We have only riscv64 asan support, there is no riscv32 support as yet. So I
need to be able to conditionally enable asan support for the riscv target. I
implemented this by returning zero from the asan_shadow_offset function. This
requires a change to toplev.c and docs in target.def.
gcc/
* config/riscv/riscv.c (riscv_asan_shadow_offset): New.
(TARGET_ASAN_SHADOW_OFFSET): New.
* doc/tm.texi: Regenerated.
* target.def (asan_shadow_offset); Mention that it can return zero.
* toplev.c (process_options): Check for and handle zero return from
targetm.asan_shadow_offset call.
Co-Authored-By: cooper.joshua <cooper.joshua@linux.alibaba.com>
This patch adds support for custom allocators on private/firstprivate
clauses for task (and taskloop) constructs. Private didn't need anything
special, but firstprivate if it is passed by reference needs the GOMP_alloc
calls in the copyfn and GOMP_free in the task body.
2020-11-14 Jakub Jelinek <jakub@redhat.com>
* gimplify.c (gimplify_omp_for): Add OMP_CLAUSE_ALLOCATE_ALLOCATOR
decls as firstprivate on task clauses even when allocate clause
decl is not lastprivate.
* omp-low.c (install_var_field): Don't dereference omp_is_reference
types if mask is 33 rather than 1.
(scan_sharing_clauses): Populate allocate_map even for task
constructs. For now remove it back for variables mentioned in
reduction and in_reduction clauses on task/taskloop constructs
or on VLA task firstprivates. For firstprivate on task construct,
install the var field into field_map with by_ref and 33 instead
of false and 1 if mentioned in allocate clause.
(lower_private_allocate): Set TREE_THIS_NOTRAP on the created
MEM_REF.
(lower_rec_input_clauses): Handle allocate for task firstprivatized
non-VLA variables.
(create_task_copyfn): Likewise.
* testsuite/libgomp.c-c++-common/allocate-1.c (struct S): New type.
(foo): Add tests for non-VLA private and firstprivate clauses on
omp task.
(bar): Likewise. Remove taking of address from private/firstprivate
variables.
* testsuite/libgomp.c++/allocate-1.C (struct S): New type.
(foo): Add p, q, px and s arguments. Add tests for array reductions
and for non-VLA private and firstprivate clauses on omp task.
(bar): Removed.
(main): Adjust foo caller. Don't call bar.
On 32-bit targets where userspace has switched to 64-bit time_t, we
cannot pass struct timespec to SYS_futex or SYS_clock_gettime, because
the userspace definition of struct timespec will not match what the
kernel expects.
We use the existence of the SYS_futex_time64 or SYS_clock_gettime_time64
macros to imply that userspace *might* have switched to the new timespec
definition. This is a conservative assumption. It's possible that the
new syscall numbers are defined in the libc headers but that timespec
hasn't been updated yet (as is the case for glibc currently). But using
the alternative struct with two longs is still OK, it's just redundant
if userspace timespec still uses a 32-bit time_t.
We also check that SYS_futex_time64 != SYS_futex so that we don't try
to use a 32-bit tv_sec on modern targets that only support the 64-bit
system calls and define the old macro to the same value as the new one.
We could possibly check #ifdef __USE_TIME_BITS64 to see whether
userspace has actually been updated, but it's not clear if user code
is meant to inspect that or if it's only for libc internal use.
libstdc++-v3/ChangeLog:
PR libstdc++/93421
* src/c++11/chrono.cc [_GLIBCXX_USE_CLOCK_GETTIME_SYSCALL]
(syscall_timespec): Define a type suitable for SYS_clock_gettime
calls.
(system_clock::now(), steady_clock::now()): Use syscall_timespec
instead of timespec.
* src/c++11/futex.cc (syscall_timespec): Define a type suitable
for SYS_futex and SYS_clock_gettime calls.
(relative_timespec): Use syscall_timespec instead of timespec.
(__atomic_futex_unsigned_base::_M_futex_wait_until): Likewise.
(__atomic_futex_unsigned_base::_M_futex_wait_until_steady):
Likewise.
The relative_timespec function already checks for the case where the
specified timeout is in the past, so the difference can never be
negative. That means we dn't need to check if it's more negative than
the minimum time_t value.
libstdc++-v3/ChangeLog:
PR libstdc++/93456
* src/c++11/futex.cc (relative_timespec): Remove redundant check
negative values.
* testsuite/30_threads/future/members/wait_until_overflow.cc: Moved to...
* testsuite/30_threads/future/members/93456.cc: ...here.
C2x adds binary integer constants (approved at the last WG14 meeting,
though not yet added to the working draft in git). Configure libcpp
to consider these a standard feature in C2x mode, with appropriate
updates to diagnostics including support for diagnosing them with
-std=c2x -Wc11-c2x-compat.
Bootstrapped with no regressions for x86_64-pc-linux-gnu.
gcc/testsuite/
2020-11-13 Joseph Myers <joseph@codesourcery.com>
* gcc.dg/binary-constants-2.c, gcc.dg/binary-constants-3.c,
gcc.dg/system-binary-constants-1.c: Update expected diagnostics.
* gcc.dg/c11-binary-constants-1.c,
gcc.dg/c11-binary-constants-2.c, gcc.dg/c2x-binary-constants-1.c,
gcc.dg/c2x-binary-constants-2.c, gcc.dg/c2x-binary-constants-3.c:
New tests.
libcpp/
2020-11-13 Joseph Myers <joseph@codesourcery.com>
* expr.c (cpp_classify_number): Update diagnostic for binary
constants for C. Also diagnose binary constants for
-Wc11-c2x-compat.
* init.c (lang_defaults): Enable binary constants for GNUC2X and
STDC2X.
Apparently older GDB versions didn't handle this test right and so while
it has been properly printing 42 on line 14 (e.g. on x86_64), it issued
a weird error on line 17 (and because it didn't print any value, guality
testsuite wasn't marking it as FAIL).
That has been apparently fixed in GDB 10, where it now (on x86_64) prints
properly.
Unfortunately that revealed that the test can suffer from instruction
scheduling, where e.g. on i686 (but various other arches) the very first
insn of the function (or whatever b 14 is on) happens to be load of the
S::i variable from memory and that insn has the inner lexical scope, so
GDB 10 prints there 24 instead of 42. The following insn is then
the first store to l and there the automatic i is in scope and prints as 42
and then the second store to l where the inner lexical scope is current
and prints 24 again.
The test wasn't meant about insn scheduling but about whether we emit the
DIEs properly, so this hack attempts to prevent the undesirable scheduling.
2020-11-13 Jakub Jelinek <jakub@redhat.com>
* g++.dg/guality/redeclaration1.C (p): New variable.
(S::f): Increment what p points to before storing S::i into l. Adjust
gdb-test line numbers.
(main): Initialize p to address of an automatic variable.
The following patch predefines __STDCPP_THREADS__ macro to 1 if c++11 or
later and thread model (e.g. printed by gcc -v) is not single.
There are two targets not handled by this patch, those that define
THREAD_MODEL_SPEC. In one case - QNX - it looks just like a mistake
to me, instead of setting thread_model=posix in config.gcc it uses
THREAD_MODEL_SPEC macro to set it unconditionally to posix.
The other is hpux10, which uses -threads option to decide if threads
are enabled or not, but that option isn't really passed to the compiler.
I think that is something that really should be solved in config/pa/
instead, e.g. in the config/xxx/xxx-c.c targets usually set their own
predefined macros and it could handle this, and either pass the option
also to the compiler, or say predefine __STDCPP_THREADS__ if _DCE_THREADS
macro is defined already (or -D_DCE_THREADS found on the command line),
or whatever else.
2020-11-13 Jakub Jelinek <jakub@redhat.com>
PR c++/63287
* c-cppbuiltin.c: Include configargs.h.
(c_cpp_builtins): For C++11 and later if THREAD_MODEL_SPEC is not
defined, predefine __STDCPP_THREADS__ to 1 unless thread_model is
"single".
In particular, more precisely highlight what applies generally vs. the special
handling for the current 'parloops'-based OpenACC 'kernels' implementation.
gcc/
* omp-low.c (scan_sharing_clauses, scan_omp_for)
(lower_oacc_reductions, lower_omp_target): More explicit checking
of which OMP constructs we're expecting.
This allows for making some things more explicit, later on.
gcc/
* omp-expand.c (expand_omp_target): Attach an attribute to all
outlined OpenACC compute regions.
* omp-offload.c (execute_oacc_device_lower): Adjust.
gcc/testsuite/
* c-c++-common/goacc/classify-parallel.c: Adjust.
* gfortran.dg/goacc/classify-parallel.f95: Likewise.
* c-c++-common/goacc/classify-serial.c: New.
* gfortran.dg/goacc/classify-serial.f95: Likewise.
Document status quo re PR94358 "[OMP] Privatize internal array variables
introduced by the Fortran FE".
libgomp/
PR fortran/94358
* testsuite/libgomp.oacc-fortran/pr94358-1.f90: New.
Co-authored-by: Thomas Schwinge <thomas@codesourcery.com>
This fixes another overflow in code converting a std::chrono::seconds
duration to a time_t. This time in the new code using a futex wait with
an absolute timeout (so this one doesn't need to be backported to the
release branches).
A timeout after the epochalypse would overflow the tv_sec field,
producing an incorrect value. If that incorrect value happened to be
negative, the syscall would return with EINVAL and then the caller would
keep retrying, spinning until the timeout was reached. If the value
happened to be positive, we would wake up too soon and incorrectly
report a timeout
libstdc++-v3/ChangeLog:
* src/c++11/futex.cc (relative_timespec): Add [[unlikely]]
attributes.
(__atomic_futex_unsigned_base::_M_futex_wait_until)
(__atomic_futex_unsigned_base::_M_futex_wait_until_steady):
Check for overflow.
* testsuite/30_threads/future/members/wait_until_overflow.cc:
New test.
have gimple_expr_code return the correct code for GIMPLE_ASSIGN.
use gassign and gcond in gimple_range_handler.
* gimple-range.h (gimple_range_handler): Cast to gimple stmt
kinds before asking for code and type.
* gimple.h (gimple_expr_code): Call gassign and gcond routines
to get their expr_code.
This feature allows the programmer to import enumerator names into the
current scope so later mentions don't need to use the fully-qualified name.
These usings are not subject to the usual restrictions on using-decls: in
particular, they can move between class and non-class scopes, and between
classes that are not related by inheritance. This last caused difficulty
for our normal approach to using-decls within a class hierarchy, as we
assume that the class where we looked up a used declaration is derived from
the class where it was first declared. So to simplify things, in that case
we make a clone of the CONST_DECL in the using class.
Thanks to Nathan for the start of this work: in particular, the
lookup_using_decl rewrite.
The changes to dwarf2out revealed an existing issue with the D front-end: we
were doing the wrong thing for importing a D CONST_DECL, because
dwarf2out_imported_module_or_decl_1 was looking through it to its type,
expecting it to be an enumerator, but in one case in thread.d, the constant
had type int. Adding the ability to import a C++ enumerator also fixed
that, but that led to a crash in force_decl_die, which didn't know what to
do with a CONST_DECL. So now it does.
Co-authored-by: Nathan Sidwell <nathan@acm.org>
gcc/cp/ChangeLog:
* cp-tree.h (USING_DECL_UNRELATED_P): New.
(CONST_DECL_USING_P): New.
* class.c (handle_using_decl): If USING_DECL_UNRELATED_P,
clone the CONST_DECL.
* name-lookup.c (supplement_binding_1): A clone hides its
using-declaration.
(lookup_using_decl): Rewrite to separate lookup and validation.
(do_class_using_decl): Adjust.
(finish_nonmember_using_decl): Adjust.
* parser.c (make_location): Add cp_token overload.
(finish_using_decl): Split out from...
(cp_parser_using_declaration): ...here. Don't look through enums.
(cp_parser_using_enum): New.
(cp_parser_block_declaration): Call it.
(cp_parser_member_declaration): Call it.
* semantics.c (finish_id_expression_1): Handle enumerator
used from class scope.
gcc/ChangeLog:
* dwarf2out.c (gen_enumeration_type_die): Call
equate_decl_number_to_die for enumerators.
(gen_member_die): Don't move enumerators to their
enclosing class.
(dwarf2out_imported_module_or_decl_1): Allow importing
individual enumerators.
(force_decl_die): Handle CONST_DECL.
gcc/testsuite/ChangeLog:
* g++.dg/cpp0x/inh-ctor28.C: Adjust expected diagnostic.
* g++.dg/cpp0x/inh-ctor33.C: Likewise.
* g++.dg/cpp0x/using-enum-1.C: Add comment.
* g++.dg/cpp0x/using-enum-2.C: Allowed in C++20.
* g++.dg/cpp0x/using-enum-3.C: Likewise.
* g++.dg/cpp1z/class-deduction69.C: Adjust diagnostic.
* g++.dg/inherit/using5.C: Likewise.
* g++.dg/cpp2a/using-enum-1.C: New test.
* g++.dg/cpp2a/using-enum-2.C: New test.
* g++.dg/cpp2a/using-enum-3.C: New test.
* g++.dg/cpp2a/using-enum-4.C: New test.
* g++.dg/cpp2a/using-enum-5.C: New test.
* g++.dg/cpp2a/using-enum-6.C: New test.
* g++.dg/debug/dwarf2/using-enum.C: New test.
gcc/
* cfgexpand.c (expand_asm_stmt): Output asm goto with outputs too.
Place insns after asm goto on edges.
* doc/extend.texi: Reflect the changes in asm goto documentation.
* gimple.c (gimple_build_asm_1): Remove an assert checking output
absence for asm goto.
* gimple.h (gimple_asm_label_op, gimple_asm_set_label_op): Take
possible asm goto outputs into account.
* ira.c (ira): Remove critical edges for potential asm goto output
reloads.
(ira_nullify_asm_goto): New function.
* ira.h (ira_nullify_asm_goto): New prototype.
* lra-assigns.c (lra_split_hard_reg_for): Use ira_nullify_asm_goto.
Check that splitting is done inside a basic block.
* lra-constraints.c (curr_insn_transform): Permit output reloads
for any jump insn.
* lra-spills.c (lra_final_code_change): Remove USEs added in ira
for asm gotos.
* lra.c (lra_process_new_insns): Place output reload insns after
jumps in the beginning of destination BBs.
* reload.c (find_reloads): Report error for asm gotos with
outputs. Modify them to keep CFG consistency to avoid crashes.
* tree-into-ssa.c (rewrite_stmt): Don't put debug stmt after asm
goto.
gcc/c/
* c-parser.c (c_parser_asm_statement): Parse outputs for asm
goto too.
* c-typeck.c (build_asm_expr): Remove an assert checking output
absence for asm goto.
gcc/cp
* parser.c (cp_parser_asm_definition): Parse outputs for asm
goto too.
gcc/testsuite/
* c-c++-common/asmgoto-2.c: Permit output in asm goto.
* gcc.c-torture/compile/asmgoto-2.c: New.
* gcc.c-torture/compile/asmgoto-3.c: New.
* gcc.c-torture/compile/asmgoto-4.c: New.
* gcc.c-torture/compile/asmgoto-5.c: New.
This adds allocate clause support for array section reductions.
Furthermore, it fixes one bug that would cause inscan reductions with
allocate to be rejected by C, and for now just ignores allocate for
inscan/task reductions, that will need slightly more work.
2020-11-13 Jakub Jelinek <jakub@redhat.com>
gcc/
* omp-low.c (scan_sharing_clauses): For now remove for reduction
clauses with inscan or task modifiers decl from allocate_map.
(lower_private_allocate): Handle TYPE_P (new_var).
(lower_rec_input_clauses): Handle allocate clause for C/C++ array
reductions.
gcc/c/
* c-typeck.c (c_finish_omp_clauses): Don't clear
OMP_CLAUSE_REDUCTION_INSCAN unless reduction_seen == -2.
libgomp/
* testsuite/libgomp.c-c++-common/allocate-1.c (foo): Add tests
for array reductions.
(main): Adjust foo callers.
The new behavior of safe_add triggered an ICE because of one use where
it had not been used instead of a simple addition. I'll fix it with the
following obvious patch so that periodic benchmarkers can continue
working because a proper fix (see below) will need a review.
The testcase showed me, however, that we can propagate time and cost
from one lattice to another more than once even when that was not the
intent. I'll address that as a follow-up after I verify it does not
affect the IPA-CP heuristics too much or change the corresponding
params accordingly.
Bootstrapped and tested on x86_64-linux.
gcc/ChangeLog:
2020-11-13 Martin Jambor <mjambor@suse.cz>
PR ipa/97816
* ipa-cp.c (value_topo_info<valtype>::propagate_effects): Use
safe_add instead of a simple addition.
