By trying to reuse the existing std::_Construct function as a wrapper
for std::construct_at I introduced regressions, because changing
std::_Construct to return non-void made it ill-formed for array types.
The solution is to revert _Construct to its former state, and change
allocator_traits::construct to explicitly call construct_at instead.
This decouples all the existing callers of _Construct from the new
construct_at requirements.
PR libstdc++/94831
* include/bits/alloc_traits.h (_S_construct): Restore placement
new-expression for C++11/14/17 and call std::construct_at directly
for C++20.
* include/bits/stl_construct.h (_Construct): Revert to non-constexpr
function returning void.
* testsuite/20_util/specialized_algorithms/
uninitialized_value_construct/94831.cc: New test.
* testsuite/23_containers/vector/cons/94831.cc: New test.
The emulation of mffsl with mffs, used when !TARGET_P9_MISC, is going
through the motions, but not storing the result in the given
operands[0]; it rather modifies operands[0] without effect. It also
creates a DImode pseudo that it doesn't use, overwriting subregs
instead.
The patch below fixes all of these, the indentation and a typo.
I'm concerned about several issues in the mffsl testcase. First, I
don't see that comparing the values as doubles rather than as long
longs is desirable. These are FPSCR bitfields, not FP numbers. I
understand mffs et al use double because they output to FP registers,
and the bit patterns are subnormal FP numbers, so it works, but given
the need for bit masking of at least one side, I'm changing the
compare to long longs.
Another issue with the test is that, if the compare fails, it calls
mffsl again to print the value, as if it would yield the same result.
But part of the FPSCR that mffsl (emulated with mffs or not) copies to
the output FP register is the FPCC, so the fcmpu used to compare the
result of the first mffsl will modify FPSCR and thus the result of the
second mffsl call. After changing the compare, this is no longer the
case, but I still think it's better to make absolutely sure what we
print is what we compared.
Yet another issue is that the test assumed the mffs bits that are not
to be extracted by mffsl to be already zero, instead of masking them
out explicitly. This is not about the mffs emulation in the mffsl
implementation, but about the mffs use in the test proper. The bits
appear to be zero indeed, as the bits left out are for sticky
exceptions, but there are reserved parts of FPSCR that might turn out
to be set in the future, so we're better off masking them out
explicitly, otherwise those bits could cause the compare to fail.
If some future mffsl is changed so that it copies additional nonzero
bits, the test will fail, and then we'll have a chance to adjust it
and the emulation.
for gcc/ChangeLog
PR target/94812
* gcc/config/rs6000/rs6000.md (rs6000_mffsl): Copy result to
output operand in emulation. Don't overwrite pseudos.
for gcc/testsuite/ChangeLog
PR target/94812
* gcc.target/powerpc/test_mffsl.c: Call mffsl only once.
Reinterpret the doubles as long longs for compares. Mask out
mffs bits that are not expected from mffsl.
This implements the proposed resolution of LWG 3433, which fixes
subrange::advance when called with a negative argument.
libstdc++-v3/ChangeLog:
LWG 3433 subrange::advance(n) has UB when n < 0
* include/std/ranges (subrange::prev): Fix typo.
(subrange::advance): Handle a negative argument as per the proposed
resolution of LWG 3433.
* testsuite/std/ranges/subrange/lwg3433.cc: New test.
Multilibs should not have been split up as two logically different CPU,
so at configure time, powerpc64 was being detected, but none of the
32-bit support files were being compiled in.
libphobos/ChangeLog:
PR d/94825
* configure: Regenerate.
* libdruntime/Makefile.am (DRUNTIME_SOURCES_CONFIGURED): Add both
switchcontext.S and callwithstack.S if DRUNTIME_CPU_POWERPC.
* libdruntime/Makefile.in: Regenerate.
* libdruntime/config/powerpc/switchcontext.S: Add !__PPC64__ guards.
* libdruntime/config/powerpc64/callwithstack.S: Add __PPC64__ guards.
* m4/druntime/cpu.m4 (DRUNTIME_CPU_SOURCES): Define DRUNTIME_CPU_POWER
for all powerpc biarchs. Remove DRUNTIME_CPU_POWER64 conditional.
My last patch rejected a namespace-scope declaration of the
implicitly-declared friend operator== before the class, but redeclaring it
after the class should be OK.
gcc/cp/ChangeLog
2020-04-28 Jason Merrill <jason@redhat.com>
PR c++/94583
* decl.c (use_eh_spec_block): Check nothrow type after
DECL_DEFAULTED_FN.
* pt.c (maybe_instantiate_noexcept): Call synthesize_method for
DECL_MAYBE_DELETED fns here.
* decl2.c (mark_used): Not here.
* method.c (get_defaulted_eh_spec): Reject DECL_MAYBE_DELETED here.
PR analyzer/94816 reports an ICE when attempting to copy a struct
containing a field for which add_region_for_type for fails (on
an OFFSET_TYPE): the region for the src field comes from
make_region_for_unexpected_tree_code which gives it a NULL type, and
then the copy calls add_region_for_type which unconditionally
dereferences the NULL type.
This patch fixes the ICE by checking for NULL types in
add_region_for_type.
gcc/analyzer/ChangeLog:
PR analyzer/94816
* engine.cc (impl_region_model_context::on_unexpected_tree_code):
Handle NULL tree.
* region-model.cc (region_model::add_region_for_type): Handle
NULL type.
* region-model.h
(test_region_model_context::on_unexpected_tree_code): Handle NULL
tree.
gcc/testsuite/ChangeLog:
PR analyzer/94816
* g++.dg/analyzer/pr94816.C: New test.
Turns out for consistency with LLVM the +nofp option shouldn't remove ALL of FP and MVE, just the FP part of MVE.
This requires more surgery with feature bits so for GCC 10 I'd rather just not support +nofp for -mcpu=cortex-m55
and implement it properly for GCC 11.
2020-04-28 Kyrylo Tkachov <kyrylo.tkachov@arm.com>
* config/arm/arm-cpus.in (cortex-m55): Remove +nofp option.
* doc/invoke.texi (Arm Options): Remove -mcpu=cortex-m55 from +nofp option.
In C++14, an empty class deriving from an empty base is not an
aggregate, while in C++17 it is. In order to implement this, GCC adds
an artificial field to such classes.
This artificial field has no mapping to Fundamental Data Types in the
Arm PCS ABI and hence should not count towards determining whether an
object can be passed using the vector registers as per section
"7.1.2 Procedure Calling" in the arm PCS
https://developer.arm.com/docs/ihi0042/latest?_ga=2.60211309.1506853196.1533541889-405231439.1528186050
This patch avoids counting this artificial field in
aapcs_vfp_sub_candidate, and hence calculates whether such objects
should be passed in vector registers in the same manner as C++14 (where
the artificial field does not exist).
Before this change, the test below would pass the arguments to `f` in
general registers. After this change, the test passes the arguments to
`f` using the vector registers.
The new behaviour matches the behaviour of `armclang`, and also matches
the GCC behaviour when run with `-std=gnu++14`.
> gcc -std=gnu++17 -march=armv8-a+simd -mfloat-abi=hard test.cpp
``` test.cpp
struct base {};
struct pair : base
{
float first;
float second;
pair (float f, float s) : first(f), second(s) {}
};
void f (pair);
int main()
{
f({3.14, 666});
return 1;
}
```
We add a `-Wpsabi` warning to catch cases where this fix has changed the ABI for
some functions. Unfortunately this warning is not emitted twice for multiple
calls to the same function, but I feel this is not much of a problem and can be
fixed later if needs be.
(i.e. if `main` called `f` twice in a row we only emit a diagnostic for the
first).
Testing:
Bootstrapped and regression tested on arm-linux.
This change fixes the struct-layout-1 tests Jakub added
https://gcc.gnu.org/pipermail/gcc-patches/2020-April/544204.html
Regression tested on arm-none-eabi.
gcc/ChangeLog:
2020-04-28 Matthew Malcomson <matthew.malcomson@arm.com>
Jakub Jelinek <jakub@redhat.com>
PR target/94711
* config/arm/arm.c (aapcs_vfp_sub_candidate): Account for C++17 empty
base class artificial fields.
(aapcs_vfp_is_call_or_return_candidate): Warn when PCS ABI
decision is different after this fix.
From what I can tell -Wanalyzer-use-of-uninitialized-value has not
yet found a true diagnostic in real-world code, and seems to be
particularly susceptible to false positives. These relate to bugs in
the region_model code.
For GCC 10 it seems best to remove this warning, which this patch does.
Internally it also removes POISON_KIND_UNINIT.
I'm working on a rewrite of the region_model code for GCC 11 that I
hope will fix these issues, and allow this warning to be reintroduced.
gcc/analyzer/ChangeLog:
PR analyzer/94447
PR analyzer/94639
PR analyzer/94732
PR analyzer/94754
* analyzer.opt (Wanalyzer-use-of-uninitialized-value): Delete.
* program-state.cc (selftest::test_program_state_dumping): Update
expected dump result for removal of "uninit".
* region-model.cc (poison_kind_to_str): Delete POISON_KIND_UNINIT
case.
(root_region::ensure_stack_region): Initialize stack with null
svalue_id rather than with a typeless POISON_KIND_UNINIT value.
(root_region::ensure_heap_region): Likewise for the heap.
(region_model::dump_summary_of_rep_path_vars): Remove
summarization of uninit values.
(region_model::validate): Remove check that the stack has a
POISON_KIND_UNINIT value.
(poisoned_value_diagnostic::emit): Remove POISON_KIND_UNINIT
case.
(poisoned_value_diagnostic::describe_final_event): Likewise.
(selftest::test_dump): Update expected dump result for removal of
"uninit".
(selftest::test_svalue_equality): Remove "uninit" and "freed".
* region-model.h (enum poison_kind): Remove POISON_KIND_UNINIT.
gcc/ChangeLog:
PR analyzer/94447
PR analyzer/94639
PR analyzer/94732
PR analyzer/94754
* doc/invoke.texi (Static Analyzer Options): Remove
-Wanalyzer-use-of-uninitialized-value.
(-Wno-analyzer-use-of-uninitialized-value): Remove item.
gcc/testsuite/ChangeLog:
PR analyzer/94447
PR analyzer/94639
PR analyzer/94732
PR analyzer/94754
* gcc.dg/analyzer/data-model-1.c: Mark "use of uninitialized
value" warnings as xfail for now.
* gcc.dg/analyzer/data-model-5b.c: Remove uninitialized warning.
* gcc.dg/analyzer/pr94099.c: Mark "uninitialized" warning as xfail
for now.
* gcc.dg/analyzer/pr94447.c: New test.
* gcc.dg/analyzer/pr94639.c: New test.
* gcc.dg/analyzer/pr94732.c: New test.
* gcc.dg/analyzer/pr94754.c: New test.
* gcc.dg/analyzer/zlib-6.c: Mark "uninitialized" warning as xfail
for now.
GCC_CET_HOST_FLAGS uses -Wl,-z,ibt,-z,shstk to check if Linux/x86 host
has Intel CET enabled by introducing an Intel CET violation on purpose.
To avoid false positive, check whether -Wl,-z,ibt,-z,shstk works first.
-fcf-protection=none is added to avoid false negative when -fcf-protection
is enabled by default.
config/
PR bootstrap/94739
* cet.m4 (GCC_CET_HOST_FLAGS): Add -fcf-protection=none to
-Wl,-z,ibt,-z,shstk. Check whether -fcf-protection=none
-Wl,-z,ibt,-z,shstk works first.
libiberty/
PR bootstrap/94739
* configure: Regenerated.
lto-plugin/
PR bootstrap/94739
* configure: Regenerated.
On the following testcase, match.pd during GENERIC folding
changes the -1U / x < y into __imag__ .MUL_OVERFLOW (x, y),
but unfortunately unlike for normal calls nothing sets TREE_SIDE_EFFECTS on
the call. There is the process_call_operands function that non-internal
call creation calls and it is usable for internal calls too,
e.g. TREE_SIDE_EFFECTS is derived from checking whether the
call has side-effects (non-ECF_{CONST,PURE}; we have those for internal
calls) and from whether any of the arguments has TREE_SIDE_EFFECTS.
2020-04-28 Jakub Jelinek <jakub@redhat.com>
PR tree-optimization/94809
* tree.c (build_call_expr_internal_loc_array): Call
process_call_operands.
* gcc.c-torture/execute/pr94809.c: New test.
Here is the patch introducing thunderx3t110 machine model
for the scheduler. A name for the new chip was added to the
list of the names to be recognized as a valid parameter for
mcpu and mtune flags. Added the TX3 tuning table and cost
model tables.
Added the new chip name to the documentation. Fixed copyright
names and dates.
Lowering the chip capabilities to v8.3 to be on the safe side.
Bootstrapped on AArch64.
2020-04-27 Anton Youdkevitch <anton.youdkevitch@bell-sw.com>
* config/aarch64/aarch64-cores.def: Add the chip name.
* config/aarch64/aarch64-tune.md: Regenerated.
* config/aarch64/aarch64.c: Add tuning table for the chip.
* gcc/config/aarch64/aarch64-cost-tables.h: Add cost tables.
* config/aarch64/thunderx3t110.md: New file: add the new
machine model for the scheduler
* config/aarch64/aarch64.md: Include the new model.
* doc/invoke.texi: Add the new name to the list
> We probably have to look into providing a -Wpsabi warning as well.
So like this?
2020-04-28 Jakub Jelinek <jakub@redhat.com>
PR target/94704
* config/s390/s390.c (s390_function_arg_vector,
s390_function_arg_float): Emit -Wpsabi diagnostics if the ABI changed.
The previous patch for this PR handled separate comparisons.
However, as arm targets show, the same fix is needed when
handling comparisons embedded in a VEC_COND_EXPR.
Here too, the problem is that vect_get_constant_vectors will
calculate its own vector type, using truth_type_for on the
STMT_VINFO_VECTYPE, and the vectoriable_* routines need to be
consistent with that.
2020-04-28 Richard Sandiford <richard.sandiford@arm.com>
gcc/
PR tree-optimization/94727
* tree-vect-stmts.c (vect_is_simple_cond): If both comparison
operands are invariant booleans, use the mask type associated with the
STMT_VINFO_VECTYPE. Use !slp_node instead of !vectype to exclude SLP.
(vectorizable_condition): Pass vectype unconditionally to
vect_is_simple_cond.
We changed the argument passed to the promise parameter preview
to match a reference to *this. However to be consistent with the
other ports, we do need to match the reference transformation in
the traits lookup and the promise allocator lookup.
gcc/cp/ChangeLog:
2020-04-28 Iain Sandoe <iain@sandoe.co.uk>
PR c++/94760
* coroutines.cc (instantiate_coro_traits): Pass a reference to
object type rather than a pointer type for 'this', for method
coroutines.
(struct param_info): Add a field to hold that the parm is a lambda
closure pointer.
(morph_fn_to_coro): Check for lambda closure pointers in the
args. Use a reference to *this when building the args list for the
promise allocator lookup.
gcc/testsuite/ChangeLog:
2020-04-28 Iain Sandoe <iain@sandoe.co.uk>
PR c++/94760
* g++.dg/coroutines/pr94760-mismatched-traits-and-promise-prev.C:
New test.
From the standard:
The header <coroutine> defines the primary template coroutine_traits
such that if ArgTypes is a parameter pack of types and if the
qualified-id R::promise_type is valid and denotes a type, then
coroutine_traits<R,ArgTypes...> has the following publicly accessible
member:
using promise_type = typename R::promise_type;
this should not prevent more specialised cases and the following
code should be accepted, but is currently rejected with:
'error: coroutine return type ‘void’ is not a class'
This is because the check for non-class-ness of the return value was
in the wrong place; it needs to be carried out in a SFINAE context.
The following patch removes the restriction in the traits template
instantiation and allows for the case that the ramp function could
return void.
The <coroutine> header is amended to implement the required
functionality.
gcc/cp/ChangeLog:
2020-04-28 Iain Sandoe <iain@sandoe.co.uk>
PR c++/94759
* coroutines.cc (coro_promise_type_found_p): Do not
exclude non-classes here (this needs to be handled in the
coroutine header).
(morph_fn_to_coro): Allow for the case where the coroutine
returns void.
gcc/testsuite/ChangeLog:
2020-04-28 Iain Sandoe <iain@sandoe.co.uk>
PR c++/94759
* g++.dg/coroutines/coro-bad-alloc-00-bad-op-new.C: Adjust for
updated error messages.
* g++.dg/coroutines/coro-bad-alloc-01-bad-op-del.C: Likewise.
* g++.dg/coroutines/coro-bad-alloc-02-no-op-new-nt.C: Likewise.
* g++.dg/coroutines/coro-missing-promise.C: Likewise.
* g++.dg/coroutines/pr93458-5-bad-coro-type.C: Liekwise.
* g++.dg/coroutines/torture/co-ret-17-void-ret-coro.C: New test.
libstdc++-v3/ChangeLog:
2020-04-28 Jonathan Wakely <jwakely@redhat.com>
Iain Sandoe <iain@sandoe.co.uk>
PR c++/94759
* include/std/coroutine: Implement handing for non-
class coroutine return types.
Structured binding makes use of the DECL_VALUE_EXPR fields
in local variables. We need to recognise these and only amend
the expression values, retaining the 'alias' value intact.
gcc/cp/ChangeLog:
2020-04-27 Iain Sandoe <iain@sandoe.co.uk>
PR c++/94701
* coroutines.cc (struct local_var_info): Add fields for static
variables and those with DECL_VALUE_EXPR redirection.
(transform_local_var_uses): Skip past typedefs and static vars
and then account for redirected variables.
(register_local_var_uses): Likewise.
gcc/testsuite/ChangeLog:
2020-04-27 Iain Sandoe <iain@sandoe.co.uk>
PR c++/94701
* g++.dg/coroutines/torture/local-var-06-structured-binding.C: New test.
This function, because it is sometimes called even outside of function
bodies, uses create_tmp_var_raw rather than create_tmp_var. But in order
for that to work, when first referenced, the VAR_DECLs need to appear in a
TARGET_EXPR so that during gimplification the var gets the right
DECL_CONTEXT and is added to local decls. Without that, e.g. tree-nested.c
ICEs on those.
2020-04-27 Jakub Jelinek <jakub@redhat.com>
PR target/94780
* config/i386/i386.c (ix86_atomic_assign_expand_fenv): Use
TARGET_EXPR instead of MODIFY_EXPR for first assignment to
sw_var, exceptions_var, mxcsr_orig_var and mxcsr_mod_var.
* gcc.dg/pr94780.c: New test.
We previously happened to accept this testcase, but never actually did
anything useful with the attribute. The patch for PR86379 stopped using
TREE_TYPE as USING_DECL_SCOPE, so 'using A::b' no longer had TREE_TYPE set,
so the language-independent decl_attributes started crashing on it.
GNU attributes are more flexible in their placement than C++11 attributes,
so if we encounter a dependent GNU attribute that syntactically appertains
to a type rather than the declaration as a whole, move it to the
declaration; that's almost certainly what the user meant, anyway.
gcc/cp/ChangeLog
2020-04-27 Jason Merrill <jason@redhat.com>
PR c++/90750
PR c++/79585
* decl.c (grokdeclarator): Move dependent attribute to decl.
* decl2.c (splice_template_attributes): No longer static.
In the first testcase below, the call to the target constructor foo{} from foo's
delegating constructor is encoded as the INIT_EXPR
*(struct foo *) this = AGGR_INIT_EXPR <4, __ct_comp, D.2140, ...>;
During initialization of the variable 'bar', we prematurely set TREE_READONLY on
bar's CONSTRUCTOR in two places before the outer delegating constructor has
returned: first, at the end of cxx_eval_call_expression after evaluating the RHS
of the above INIT_EXPR, and second, at the end of cxx_eval_store_expression
after having finished evaluating the above INIT_EXPR. This then prevents the
rest of the outer delegating constructor from mutating 'bar'.
This (hopefully minimally risky) patch makes cxx_eval_call_expression refrain
from setting TREE_READONLY when evaluating the target constructor of a
delegating constructor. It also makes cxx_eval_store_expression refrain from
setting TREE_READONLY when the object being initialized is "*this', on the basis
that it should be the responsibility of the routine that set 'this' in the first
place to set the object's TREE_READONLY appropriately.
gcc/cp/ChangeLog:
PR c++/94772
* constexpr.c (cxx_eval_call_expression): Don't set new_obj if we're
evaluating the target constructor of a delegating constructor.
(cxx_eval_store_expression): Don't set TREE_READONLY if the LHS of the
INIT_EXPR is '*this'.
gcc/testsuite/ChangeLog:
PR c++/94772
* g++.dg/cpp1y/constexpr-tracking-const23.C: New test.
* g++.dg/cpp1y/constexpr-tracking-const24.C: New test.
* g++.dg/cpp1y/constexpr-tracking-const25.C: New test.
PR 92830 reports that we always use "gcc/Warning-Options.html" when we
emit escaped documentation URLs when printing "[-Wname-of-option]" for
a warning.
This page is wrong for most Fortran warnings, and for analyzer warnings.
I considered various schemes involving adding extra tags to the .opt
format to capture where options are documented, but for now this patch
fixes the issue by introducing some special-casing logic.
It only fixes the URLs for warning options, not for other command-line
options, but those are the only options for which get_option_url is
currently called.
gcc/ChangeLog:
PR 92830
* configure.ac (DOCUMENTATION_ROOT_URL): Drop trailing "gcc/" from
default value, so that it can by supplied by get_option_html_page.
* configure: Regenerate.
* opts.c: Include "selftest.h".
(get_option_html_page): New function.
(get_option_url): Use it. Reformat to place comments next to the
expressions they refer to.
(selftest::test_get_option_html_page): New.
(selftest::opts_c_tests): New.
* selftest-run-tests.c (selftest::run_tests): Call
selftest::opts_c_tests.
* selftest.h (selftest::opts_c_tests): New decl.
branch-protection=pac-ret is not supported on ilp32 now and
the test requires it via branch-protection=standard.
committed as obvious.
gcc/testsuite/ChangeLog:
PR target/94697
* gcc.target/aarch64/pr94697.c: Require lp64.
cde-errors.c and cde-mve-error-2.c were failing with an rtl checking
failure because we applied UINTVAL to a nonconstant argument
(specifically a REG).
2020-04-27 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/arm/arm-builtins.c (arm_expand_builtin_args): Only apply
UINTVAL to CONST_INTs.
When this builtin has no parameters, speculation_safe_value_resolve_call
returns BUILT_IN_NONE, but resolve_overloaded_builtin uselessly
dereferences the first param just to return error_mark_node immediately.
The following patch rearranges it so that we only read the first parameter
if fncode is not BUILT_IN_NONE.
2020-04-27 Jakub Jelinek <jakub@redhat.com>
PR c/94755
* c-common.c (resolve_overloaded_builtin): Return error_mark_node for
fncode == BUILT_IN_NONE before initialization of first_param.
* c-c++-common/pr94755.c: New test.
The code change that caused this regression was not meant to affect neon
code-gen, however I missed the REG fall through. This patch makes sure we only
get the left-hand of the PLUS if it is indeed a PLUS expr.
gcc/ChangeLog:
2020-04-27 Andre Vieira <andre.simoesdiasvieira@arm.com>
* config/arm/arm.c (output_move_neon): Only get the first operand if
addr is PLUS.
In the testcase for PR94784, we have two vectors with the same ABI identity
but with different TYPE_MODEs. It would be better to flip the assert around
so that it checks that the two vectors have equal TYPE_VECTOR_SUBPARTS and
that converting the corresponding element types is a useless_type_conversion_p.
2020-04-27 Felix Yang <felix.yang@huawei.com>
gcc/
PR tree-optimization/94784
* tree-ssa-forwprop.c (simplify_vector_constructor): Flip the
assert around so that it checks that the two vectors have equal
TYPE_VECTOR_SUBPARTS and that converting the corresponding element
types is a useless_type_conversion_p.
gcc/testsuite/
PR tree-optimization/94784
* gcc.dg/pr94784.c: New test.
On aarch64 -mbranch-protection=pac-ret reuses the dwarf
opcode for window_save to mean "toggle the return address
mangle state", but in the dwarf2cfi internal logic the
state was not updated when an opcode was emitted, the
currently present update logic is only valid for the
original sparc use of window_save so a separate bool is
used on aarch64 to track the state.
This bug can cause the unwinder not to authenticate return
addresses that were signed (or vice versa) which means a
runtime crash on a pauth enabled system.
Currently only aarch64 pac-ret uses REG_CFA_TOGGLE_RA_MANGLE.
This should be backported to gcc-9 and gcc-8 branches.
gcc/ChangeLog:
PR target/94515
* dwarf2cfi.c (struct GTY): Add ra_mangled.
(cfi_row_equal_p): Check ra_mangled.
(dwarf2out_frame_debug_cfa_window_save): Remove the argument,
this only handles the sparc logic now.
(dwarf2out_frame_debug_cfa_toggle_ra_mangle): New function for
the aarch64 specific logic.
(dwarf2out_frame_debug): Update to use the new subroutines.
(change_cfi_row): Check ra_mangled.
gcc/testsuite/ChangeLog:
PR target/94515
* g++.target/aarch64/pr94515-1.C: New test.
* g++.target/aarch64/pr94515-2.C: New test.
The following patch fixes the C++14 vs. C++17 ABI passing incompatibility
on s390x-linux.
Bootstrapped/regtested on s390x-linux without and with the patch, the
difference being:
-FAIL: tmpdir-g++.dg-struct-layout-1/t032 cp_compat_x_alt.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t032 cp_compat_x_tst.o-cp_compat_y_alt.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t032 cp_compat_x_tst.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t055 cp_compat_x_alt.o-cp_compat_y_alt.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t055 cp_compat_x_alt.o-cp_compat_y_tst.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t055 cp_compat_x_tst.o-cp_compat_y_alt.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t055 cp_compat_x_tst.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t056 cp_compat_x_alt.o-cp_compat_y_alt.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t056 cp_compat_x_alt.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t056 cp_compat_x_tst.o-cp_compat_y_alt.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t056 cp_compat_x_tst.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t057 cp_compat_x_alt.o-cp_compat_y_alt.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t057 cp_compat_x_alt.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t057 cp_compat_x_tst.o-cp_compat_y_alt.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t057 cp_compat_x_tst.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t058 cp_compat_x_alt.o-cp_compat_y_alt.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t058 cp_compat_x_alt.o-cp_compat_y_tst.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t058 cp_compat_x_tst.o-cp_compat_y_alt.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t058 cp_compat_x_tst.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t059 cp_compat_x_alt.o-cp_compat_y_alt.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t059 cp_compat_x_alt.o-cp_compat_y_tst.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t059 cp_compat_x_tst.o-cp_compat_y_alt.o execute
-FAIL: tmpdir-g++.dg-struct-layout-1/t059 cp_compat_x_tst.o-cp_compat_y_tst.o execute
when performing ALT_CXX_UNDER_TEST=g++ testing with a system GCC 10 compiler
from a week ago. So, the alt vs. alt FAILs are all expected (we know before
this patch there is an ABI incompatibility) and some alt vs. tst (or tst vs.
alt) FAILs too - that depends on if the particular x or y test is compiled
with -std=c++14 or -std=c++17 - if x_tst is compiled with -std=c++14 and
y_alt is compiled with -std=c++17, then it should FAIL, similarly if x_alt
is compiled with -std=c++17 and y_tst is compiled with -std=c++14.
2020-04-27 Jakub Jelinek <jakub@redhat.com>
PR target/94704
* config/s390/s390.c (s390_function_arg_vector,
s390_function_arg_float): Ignore cxx17_empty_base_field_p fields.
Previously -fweb was disabled if only unroll small loops. After that
we find there is cases where it could help to rename pseudos and avoid
some anti-dependence which may occur after unroll.
This patch enables -fweb for small loops unrolling.
2020-04-27 Jiufu Guo <guojiufu@cn.ibm.com>
* common/config/rs6000/rs6000-common.c
(rs6000_option_optimization_table) [OPT_LEVELS_ALL]: Remove turn off
-fweb.
* config/rs6000/rs6000.c (rs6000_option_override_internal): Avoid to
set flag_web.
Since commit e154242724 the flag -many is
sometimes not passed to the assembler. Use .machine ppc to prevent
errors if these files are assembled for an ISA which does not support
FPRs.
libgcc/
* config/rs6000/crtresfpr.S: Use .machine ppc.
* config/rs6000/crtresxfpr.S: Likewise.
* config/rs6000/crtsavfpr.S: Likewise.
This bug is exposed by FRE refactor of r263875. Comparing the fre
dump file shows no obvious change of the segment fault function proves
it to be a target issue.
frame_pointer_needed is set to true in reload pass setup_can_eliminate,
but regs_ever_live[31] is false, pro_and_epilogue uses it without live
check causing CPU2006 465.tonto segment fault of loading from invalid
addresses due to r31 not saved/restored. Thus, add HARD_FRAME_POINTER_REGNUM
live check with frame_pointer_needed_indeed when generating pro_and_epilogue
instructions.
gcc/ChangeLog
2020-04-27 Xiong Hu Luo <luoxhu@linux.ibm.com>
PR target/91518
* config/rs6000/rs6000-logue.c (frame_pointer_needed_indeed):
New variable.
(rs6000_emit_prologue_components):
Check with frame_pointer_needed_indeed.
(rs6000_emit_epilogue_components): Likewise.
(rs6000_emit_prologue): Likewise.
(rs6000_emit_epilogue): Set frame_pointer_needed_indeed.
This test is rejected with a bogus "use of deleted function" error
starting with r225705 whereby convert_like_real/ck_base no longer
sets LOOKUP_ONLYCONVERTING for user_conv_p conversions. This does
not seem to be always correct. To recap, when we have something like
T t = x where T is a class type and the type of x is not T or derived
from T, we perform copy-initialization, something like:
1. choose a user-defined conversion to convert x to T, the result is
a prvalue,
2. use this prvalue to direct-initialize t.
In the second step, explicit constructors should be considered, since
we're direct-initializing. This is what r225705 fixed.
In this PR we are dealing with the first step, I think, where explicit
constructors should be skipped. [over.match.copy] says "The converting
constructors of T are candidate functions" which clearly eliminates
explicit constructors. But we also have to copy-initialize the argument
we are passing to such a converting constructor, and here we should
disregard explicit constructors too.
In this testcase we have
V v = m;
and we choose V::V(M) to convert m to V. But we wrongly choose
the explicit M::M<M&>(M&) to copy-initialize the argument; it's
a better match for a non-const lvalue than the implicit M::M(const M&)
but because it's explicit, we shouldn't use it.
When convert_like is processing the ck_user conversion -- the convfn is
V::V(M) -- it can see that cand->flags contains LOOKUP_ONLYCONVERTING,
but then when we're in build_over_call for this convfn, we have no way
to pass the flag to convert_like for the argument 'm', because convert_like
doesn't take flags. Fixed by creating a new conversion flag, copy_init_p,
set in ck_base/ck_rvalue to signal that explicit constructors should be
skipped.
LOOKUP_COPY_PARM looks relevant, but again, it's a LOOKUP_* flag, so
can't pass it to convert_like. DR 899 also seemed related, but that
deals with direct-init contexts only.
PR c++/90320
* call.c (struct conversion): Add copy_init_p.
(standard_conversion): Set copy_init_p in ck_base and ck_rvalue
if FLAGS demands LOOKUP_ONLYCONVERTING.
(convert_like_real) <case ck_base>: If copy_init_p is set, or
LOOKUP_ONLYCONVERTING into FLAGS.
* g++.dg/cpp0x/explicit13.C: New test.
* g++.dg/cpp0x/explicit14.C: New test.
Adds a new test directive COMPILABLE_MATH_TEST, and support has been
added for it in gdc-convert-test so that they are skipped if phobos is
not present on the target.
Only change in D runtime is a small documentation fix.
Reviewed-on: https://github.com/dlang/druntime/pull/3067https://github.com/dlang/dmd/pull/11060
gcc/testsuite/ChangeLog:
PR d/89418
* lib/gdc-utils.exp (gdc-convert-test): Add dg-skip-if for compilable
tests that depend on the phobos standard library.
Named arguments were being passed around by invisible reference, just
not variadic arguments. There is a need to de-duplicate the routines
that handle declaration/parameter promotion and reference checking.
However for now, the parameter helper functions have just been renamed
to parameter_reference_p and parameter_type, to make it more clear that
it is the Parameter equivalent to declaration_reference_p and
declaration_type.
On writing the tests, a forward-reference bug was discovered on x86_64
during va_list type semantic. This was due to fields not having their
parent set-up correctly.
gcc/d/ChangeLog:
PR d/94777
* d-builtins.cc (build_frontend_type): Set parent for generated
fields of built-in types.
* d-codegen.cc (argument_reference_p): Rename to ...
(parameter_reference_p): ... this.
(type_passed_as): Rename to ...
(parameter_type): ... this. Make TREE_ADDRESSABLE types restrict.
(d_build_call): Move handling of non-POD types here from ...
* d-convert.cc (convert_for_argument): ... here.
* d-tree.h (argument_reference_p): Rename declaration to ...
(parameter_reference_p): ... this.
(type_passed_as): Rename declaration to ...
(parameter_type): ... this.
* types.cc (TypeVisitor::visit (TypeFunction *)): Update caller.
gcc/testsuite/ChangeLog:
PR d/94777
* gdc.dg/pr94777a.d: New test.
* gdc.dg/pr94777b.d: New test.
Parameters to user-defined coroutines might be unnamed.
In that case, we must synthesize a name for the coroutine
frame copy.
gcc/cp/ChangeLog:
2020-04-26 Iain Sandoe <iain@sandoe.co.uk>
PR c++/94752
* coroutines.cc (morph_fn_to_coro): Ensure that
unnamed function params have a usable and distinct
frame field name.
gcc/testsuite/ChangeLog:
2020-04-26 Iain Sandoe <iain@sandoe.co.uk>
PR c++/94752
* g++.dg/coroutines/pr94752.C: New test.