find_tm_attribute was using TREE_PURPOSE to get the attribute name,
which is breaking now that we preserve the C++11-style attribute
format past decl_attributes. So use get_attribute_name which can
handle both formats of attributes.
PR c++/94733
* c-attribs.c (find_tm_attribute): Use get_attribute_name instead of
TREE_PURPOSE.
* g++.dg/tm/attrib-5.C: New test.
In the recent get_narrower change, I wanted it to be efficient and avoid
recursion if there are many nested COMPOUND_EXPRs. That builds the
COMPOUND_EXPR nest with the right arguments, but as build2_loc computes some
flags like TREE_SIDE_EFFECTS, TREE_CONSTANT and TREE_READONLY, when it
is called with something that will not be the argument in the end, those
flags are computed incorrectly.
So, this patch instead uses an auto_vec and builds them in the reverse order
so when they are built, they are built with the correct operands.
2020-04-23 Jakub Jelinek <jakub@redhat.com>
PR middle-end/94724
* tree.c (get_narrower): Instead of creating COMPOUND_EXPRs
temporarily with non-final second operand and updating it later,
push COMPOUND_EXPRs into a vector and process it in reverse,
creating COMPOUND_EXPRs with the final operands.
* gcc.c-torture/execute/pr94724.c: New test.
This one took a bit of detective work. When array pointers point
to components of derived types, we currently set the span field
and then create an array temporary when we pass the array
pointer to a procedure as a non-pointer or non-target argument.
(This is inefficient, but that's for another release).
Now, the compiler detected this case when there was a direct assignment
like p => a%b, but not when p was returned either as a function result
or via an argument. This patch fixes that.
2020-04-23 Thomas Koenig <tkoenig@gcc.gnu.org>
PR fortran/93956
* expr.c (gfc_check_pointer_assign): Also set subref_array_pointer
when a function returns a pointer.
* interface.c (gfc_set_subref_array_pointer_arg): New function.
(gfc_procedure_use): Call it.
2020-04-23 Thomas Koenig <tkoenig@gcc.gnu.org>
PR fortran/93956
* gfortran.dg/pointer_assign_13.f90: New test.
Update the inline namespace to __n4861.
Add '__cpp_lib_coroutine' defined to 201902L per n4861.
libstdc++-v3/ChangeLog:
2020-04-23 Iain Sandoe <iain@sandoe.co.uk>
* include/std/coroutine: Update the inline namespace to __n4861.
Add the __cpp_lib_coroutine define, set to 201902L.
* include/std/version: Add __cpp_lib_coroutine, set to 201902L.
gcc/testsuite/ChangeLog:
2020-04-23 Iain Sandoe <iain@sandoe.co.uk>
* g++.dg/coroutines/coro-bad-alloc-00-bad-op-new.C: Adjust for
changed inline namespace.
* 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.h: Likewise
The bti pass currently first emits bti c at function start
if there is no paciasp (which also acts as indirect call
landing pad), then bti j is emitted at jump labels, however
if there is a label right before paciasp then the function
start can end up like
foo:
label:
bti j
paciasp
...
This patch is a minimal fix that just moves the bti c handling
after the bti j handling so we end up with
foo:
bti c
label:
bti j
paciasp
...
This could be improved by emitting bti jc in this case, or by
detecting that the label is not in fact an indirect jump target
and then this situation would be much less common.
Needs to be backported to gcc-9 branch.
gcc/ChangeLog:
PR target/94697
* config/aarch64/aarch64-bti-insert.c (rest_of_insert_bti): Swap
bti c and bti j handling.
gcc/testsuite/ChangeLog:
PR target/94697
* gcc.target/aarch64/pr94697.c: New test.
Add extra testing in the following two tests to make sure CPP predefines
redefinitions on #pragma works as expected when -mgeneral-regs-only
option is specified (See PR94678):
gcc.target/aarch64/pragma_cpp_predefs_2.c
gcc.target/aarch64/pragma_cpp_predefs_3.c
2020-04-23 Felix Yang <felix.yang@huawei.com>
gcc/testsuite/
PR target/94678
* gcc.target/aarch64/pragma_cpp_predefs_2.c: Fix typos, pop_pragma ->
pop_options. Add tests for general-regs-only.
* gcc.target/aarch64/pragma_cpp_predefs_3.c: Add tests for
general-regs-only.
2020-04-23 Andrew Stubbs <ams@codesourcery.com>
Thomas Schwinge <thomas@codesourcery.com>
PR middle-end/93488
gcc/
* omp-expand.c (expand_omp_target): Use force_gimple_operand_gsi on
t_async and the wait arguments.
gcc/testsuite/
* c-c++-common/goacc/pr93488.c: New file.
Reviewed-by: Thomas Schwinge <thomas@codesourcery.com>
This PR was caused by mismatched expectations between
vectorizable_comparison and SLP. We had a "<" comparison
between two booleans that were leaves of the SLP tree, so
vectorizable_comparison fell back on:
/* Invariant comparison. */
if (!vectype)
{
vectype = get_vectype_for_scalar_type (vinfo, TREE_TYPE (rhs1),
slp_node);
if (maybe_ne (TYPE_VECTOR_SUBPARTS (vectype), nunits))
return false;
}
rhs1 and rhs2 were *unsigned* boolean types, so we got back a vector
of unsigned integers. This in itself was OK, and meant that "<"
worked as expected without the need for the boolean fix-ups:
/* Boolean values may have another representation in vectors
and therefore we prefer bit operations over comparison for
them (which also works for scalar masks). We store opcodes
to use in bitop1 and bitop2. Statement is vectorized as
BITOP2 (rhs1 BITOP1 rhs2) or
rhs1 BITOP2 (BITOP1 rhs2)
depending on bitop1 and bitop2 arity. */
bool swap_p = false;
if (VECTOR_BOOLEAN_TYPE_P (vectype))
{
However, vectorizable_comparison then used vect_get_slp_defs to get
the actual operands. The request went to vect_get_constant_vectors,
which also has logic to calculate the vector type. The problem was
that this type was different from the one chosen above:
if (VECT_SCALAR_BOOLEAN_TYPE_P (TREE_TYPE (op))
&& vect_mask_constant_operand_p (stmt_vinfo))
vector_type = truth_type_for (stmt_vectype);
else
vector_type = get_vectype_for_scalar_type (vinfo, TREE_TYPE (op), op_node);
So the function gave back a vector of mask types, which here are vectors
of *signed* booleans. This meant that "<" gave:
true (-1) < false (0)
and so the boolean fixup above was needed after all.
Fixed by making vectorizable_comparison also pick a mask type in
this case.
2020-04-23 Richard Sandiford <richard.sandiford@arm.com>
gcc/
PR tree-optimization/94727
* tree-vect-stmts.c (vectorizable_comparison): Use mask_type when
comparing invariant scalar booleans.
gcc/testsuite/
PR tree-optimization/94727
* gcc.dg/vect/pr94727.c: New test.
In C++17, an empty class deriving from an empty base is not an
aggregate, while in C++14 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
AArch64 PCS ABI and hence should not count towards determining whether an
object can be passed using the vector registers as per section
"6.4.2 Parameter Passing Rules" in the AArch64 PCS.
https://github.com/ARM-software/abi-aa/blob/master/aapcs64/aapcs64.rst#the-base-procedure-call-standard
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 behaviour when run with `-std=gnu++14`.
> gcc -std=gnu++17 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:
Bootstrap and regression test on aarch64-linux.
All struct-layout-1 tests now pass.
gcc/ChangeLog:
2020-04-23 Matthew Malcomson <matthew.malcomson@arm.com>
Jakub Jelinek <jakub@redhat.com>
PR target/94383
* config/aarch64/aarch64.c (aapcs_vfp_sub_candidate): Account for C++17
empty base class artificial fields.
(aarch64_vfp_is_call_or_return_candidate): Warn when ABI PCS decision is
different after this fix.
libgfortran/ChangeLog:
2020-04-22 Fritz Reese <foreese@gcc.gnu.org>
PR libfortran/94694
PR libfortran/94586
* intrinsics/trigd.c, intrinsics/trigd_lib.inc, intrinsics/trigd.inc:
Guard against unavailable math functions.
Use suffixes from kinds.h based on the REAL kind.
gcc/fortran/ChangeLog:
2020-04-22 Fritz Reese <foreese@gcc.gnu.org>
* trigd_fe.inc: Use mpfr to compute cosd(30) rather than a host-
precision floating point literal based on an invalid macro.
Ensure that the returned status values are not ignored. The old code was
not broken, but this is both safer and satisfies static analysis.
2020-04-23 Andrew Stubbs <ams@codesourcery.com>
PR other/94629
libgomp/
* plugin/plugin-gcn.c (init_hsa_context): Check return value from
hsa_iterate_agents.
(GOMP_OFFLOAD_init_device): Check return values from both calls to
hsa_agent_iterate_regions.
branch-protection=pac-ret is only supported with lp64 abi.
gcc/testsuite/ChangeLog:
PR target/94514
* g++.target/aarch64/pr94514.C: Require lp64.
* gcc.target/aarch64/pr94514.c: Likewise.
Anyway, based on IRC discussion with Richard Sandiford on IRC, we should
probably test type uids instead of type pointers because type uids aren't
reused, but type pointers in a very bad luck case could be, and having the
static var at filescope and GTY((deletable)) is an overkill (and with costs
during GC time).
2020-04-23 Jakub Jelinek <jakub@redhat.com>
PR target/94707
* config/rs6000/rs6000-call.c (rs6000_discover_homogeneous_aggregate):
Use TYPE_UID (TYPE_MAIN_VARIANT (type)) instead of type to check
if the same type has been diagnosed most recently already.
As mentioned in the PR and on IRC, the recently added struct-layout-1.exp
new tests FAIL on powerpc64le-linux (among other targets).
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/t058 cp_compat_x_tst.o-cp_compat_y_tst.o execute
FAIL: tmpdir-g++.dg-struct-layout-1/t059 cp_compat_x_tst.o-cp_compat_y_tst.o execute
in particular. The problem is that the presence or absence of the C++17
artificial empty base fields, which have non-zero TYPE_SIZE, but zero
DECL_SIZE, change the ABI decisions, if it is present (-std=c++17), the type
might not be considered homogeneous, while if it is absent (-std=c++14), it
can be.
The following patch fixes that and emits a -Wpsabi inform; perhaps more
often than it could, because the fact that rs6000_discover_homogeneous_aggregate
returns true when it didn't in in GCC 7/8/9 with -std=c++17 doesn't still
mean it will make a different ABI decision, but the warning triggered only
on the test I've changed (the struct-layout-1.exp tests use -w -Wno-psabi
already).
2020-04-23 Jakub Jelinek <jakub@redhat.com>
PR target/94707
* config/rs6000/rs6000-call.c (rs6000_aggregate_candidate): Add
cxx17_empty_base_seen argument. Pass it to recursive calls.
Ignore cxx17_empty_base_field_p fields after setting
*cxx17_empty_base_seen to true.
(rs6000_discover_homogeneous_aggregate): Adjust
rs6000_aggregate_candidate caller. With -Wpsabi, diagnose homogeneous
aggregates with C++17 empty base fields.
* g++.dg/tree-ssa/pr27830.C: Use -Wpsabi -w for -std=c++17 and higher.
On the following testcase GCC ICEs, because last_decl is error_mark_node,
and diag_attr_exclusions assumes that if it is not NULL, it must be a decl.
The following patch just doesn't diagnose attribute exclusions if the
other decl is erroneous (and thus we've already reported errors for it).
2020-04-23 Jakub Jelinek <jakub@redhat.com>
PR c/94705
* attribs.c (decl_attribute): Don't diagnose attribute exclusions
if last_decl is error_mark_node or has such a TREE_TYPE.
* gcc.dg/pr94705.c: New test.
This macro has never been defined by libstdc++, despite supporting the
parallel algorithms. It should have a different value for C++17 and
C++20, because P1001R2 should not be supported in C++17, but
unsequenced_policy is defined for C++17 (see PR p4702).
* include/std/execution (__cpp_lib_execution): Define to indicate
support for P0024R2 and P1001R2.
* include/std/version (__cpp_lib_execution): Define.
* testsuite/25_algorithms/pstl/feature_test.cc: Only test macro
defined by <algorithm>, move other tests to new tests ...
* testsuite/25_algorithms/pstl/feature_test-2.cc: New test.
* testsuite/25_algorithms/pstl/feature_test-3.cc: New test.
* testsuite/25_algorithms/pstl/feature_test-4.cc: New test.
* testsuite/25_algorithms/pstl/feature_test-5.cc: New test.
This macro should have been updated to 201811 when the last C++20
changes were implemented. However those changes are not enabled for
C++17 mode, so the macro should only have the new value in C++20 mode.
This change ensures that the macro is defined to 201603 for C++17 and
201811 for C++20.
* include/bits/stl_iterator.h (__cpp_lib_array_constexpr): Define
different values for C++17 and C++20, to indicate different feature
sets. Update value for C++20 to indicate P1032R1 support.
* include/std/version (__cpp_lib_array_constexpr): Likewise.
* testsuite/23_containers/array/comparison_operators/constexpr.cc:
Check feature test macro.
* testsuite/23_containers/array/element_access/constexpr_c++17.cc:
New test.
* testsuite/23_containers/array/requirements/constexpr_fill.cc: Check
feature test macro.
* testsuite/23_containers/array/requirements/constexpr_iter.cc: Test
in C++17 mode and check feature test macro.
The C++20 draft and SD-6 both say this should only be in <version> and
<algorithm>, not in <utility>.
* include/std/utility (__cpp_lib_constexpr_algorithms): Do not define
here.
* testsuite/20_util/exchange/constexpr.cc: Do not expect macro to be
defined by <utility>.
This macro was renamed after it was added to the working draft, but we
never renamed it in libstdc++. We haven't made a release with the old
macro name, so I see no need to keep it around.
* include/std/functional (__cpp_lib_constexpr_invoke): Rename to
__cpp_lib_constexpr_functional.
* include/std/version (__cpp_lib_constexpr_invoke): Likewise.
* testsuite/20_util/function_objects/invoke/constexpr.cc: Adjust.
These macros all correspond to features that are already supported, but
the macro was not defined when the feature was implemented.
* include/bits/ptr_traits.h (__cpp_lib_constexpr_memory): Define to
indicate P1006R1 support.
(__cpp_lib_to_address): Define to indicate P0653R2 support.
* include/bits/range_access.h (__cpp_lib_ssize): Define to indicate
P1227R2 support.
* include/bits/ranges_algo.h (__cpp_lib_shift): Define to indicate
P0769R2 support.
* include/std/atomic (__cpp_lib_atomic_float): Define to indicate
P0020R6 support.
* include/std/memory (__cpp_lib_assume_aligned): Define to indicate
P1007R3 support.
* include/std/memory_resource (__cpp_lib_polymorphic_allocator):
Define to indicate P0339R6 support.
* include/std/string_view (__cpp_lib_starts_ends_with): Define to
indicate P0457R2 support.
* include/std/type_traits (__cpp_lib_is_nothrow_convertible): Define
to indicate P0758R1 support.
(__cpp_lib_remove_cvref): Define to indicate P0550R2 support.
(__cpp_lib_type_identity): Define to indicate P0887R1 support.
* include/std/version (__cpp_lib_atomic_float)
(__cpp_lib_is_nothrow_convertible, __cpp_lib_remove_cvref)
(__cpp_lib_type_identity, __cpp_lib_assume_aligned)
(__cpp_lib_constexpr_memory, __cpp_lib_polymorphic_allocator)
(__cpp_lib_shift, __cpp_lib_ssize, __cpp_lib_starts_ends_with)
(__cpp_lib_to_address): Define.
* testsuite/20_util/to_address/1_neg.cc: Adjust dg-error line number.
These macros were replaced by __cpp_lib_map_try_emplace and
__cpp_lib_unordered_map_try_emplace, because those names are more
descriptive. We've kept both old and new names so far, but I think we
can remove the old ones now.
* include/bits/stl_map.h (__cpp_lib_map_insertion): Remove old
macro.
* include/bits/unordered_map.h (__cpp_lib_unordered_map_insertion):
Likewise.
* include/std/version (__cpp_lib_map_insertion)
(__cpp_lib_unordered_map_insertion): Remove.
My fix for PR94549 broke constraints_satisfied_p in the case where the inherited
constructor decl points to an instantiation of a constructor template coming
from an instantiation of a class template.
This is because the DECL_TI_ARGS of the inherited constructor decl in this case
contains only the innermost level of template arguments (those for the
constructor template), but constraint satisfaction expects to have the full set
of template arguments. This causes template argument substitution during
constraint satisfaction to fail in various ways.
On the other hand, the DECL_TI_ARGS of the DECL_INHERITED_CTOR is a full set of
template arguments but with the innermost level still in its dependent form,
which is the source of PR94549. So if we could combine these two sets of
template arguments then we'd be golden.
This patch does just that, by effectively reverting the fix for PR94549 and
instead using add_outermost_template_args to combine the template arguments of
the inherited constructor decl with those of its DECL_INHERITED_CTOR.
gcc/cp/ChangeLog:
PR c++/94719
PR c++/94549
* constraint.cc (satisfy_declaration_constraints): If the inherited
constructor points to an instantiation of a constructor template,
remember and use its attached template arguments.
gcc/testsuite/ChangeLog:
PR c++/94719
PR c++/94549
* g++.dg/cpp2a/concepts-inherit-ctor9.C: New test.
This PR was initially accepts-invalid, but I think it's actually valid
C++20 code. My reasoning is that in C++20 we no longer require the
declaration of operator== (#if-defed in the test), because C++20's
[temp.names]/2 says "A name is also considered to refer to a template
if it is an unqualified-id followed by a < and name lookup either finds
one or more functions or finds nothing." so when we're parsing
constexpr friend bool operator==<T>(T lhs, const Foo& rhs);
we treat "operator==" as a template name, because name lookup of
"operator==" found nothing and we have an operator-function-id, which is
an unqualified-id, and it's followed by a <. So the declaration isn't
needed to treat "operator==<T>" as a template-id.
PR c++/93807
* g++.dg/cpp2a/fn-template20.C: New test.
The following patch provides some further math library fallbacks.
fmaf can be implemented using fma if available, fma and fmal can use
x * y + z as fallback, it is not perfect, but e.g. glibc on various arches
has been using that as fallback for many years,
and copysign/copysignl/fabs/fabsl can be implemented using corresponding
__builtin_* if we make sure that gcc expands it inline instead of using
a library call (these days it is expanded inline on most targets).
2020-04-22 Jakub Jelinek <jakub@redhat.com>
PR libfortran/94694
PR libfortran/94586
* configure.ac: Add math func checks for fmaf, fma and fmal. Add
HAVE_INLINE_BUILTIN_COPYSIGN check.
* c99_protos.h (copysign, fmaf, fma, fmal): Provide fallback
prototypes.
(HAVE_COPYSIGN, HAVE_FMAF, HAVE_FMA, HAVE_FMAL): Define if not
defined and fallback version is provided.
* intrinsics/c99_functions.c (copysign, fmaf, fma, fmal): Provide
fallback implementations if possible
* configure: Regenerated.
* config.h.in: Regenerated.
* math.m4 (GCC_CHECK_MATH_INLINE_BUILTIN_FALLBACK1,
GCC_CHECK_MATH_INLINE_BUILTIN_FALLBACK2): New.
Since -mabi=ilp32 option is not compatible with large code model, Require
lp64 target for the following tests:
gcc.target/aarch64/pr63304_1.c
gcc.target/aarch64/pr70120-2.c
gcc.target/aarch64/pr94530.c
gcc.target/aarch64/reload-valid-spoff.c
2020-04-22 Duan bo <duanbo3@huawei.com>
gcc/testsuite/
PR testsuite/94712
* gcc.target/aarch64/pr63304_1.c: Require lp64 target.
* gcc.target/aarch64/pr70120-2.c: Likewise.
* gcc.target/aarch64/pr94530.c: Likewise.
* gcc.target/aarch64/reload-valid-spoff.c: Likewise.
As the two testcases for PR94678 show, -mgeneral-regs-only is handled
properly with SVE. We should issue an error message instead of expanding
SVE builtin funtions when -mgeneral-regs-only option is specified.
The middle end should never try to use vector patterns when the vector
modes have been disabled by !have_regs_of_mode. But it's still wrong
for the target to provide patterns that would inevitably lead to spill
failure due to lack of registers. So we should also add check for
!TARGET_GENERAL_REGS_ONLY in TARGET_SVE and other SVE related macros.
2020-04-22 Felix Yang <felix.yang@huawei.com>
gcc/
PR target/94678
* config/aarch64/aarch64.h (TARGET_SVE):
Add && !TARGET_GENERAL_REGS_ONLY.
(TARGET_SVE2): Add && TARGET_SVE.
(TARGET_SVE2_AES, TARGET_SVE2_BITPERM, TARGET_SVE2_SHA3,
TARGET_SVE2_SM4): Add && TARGET_SVE2.
* config/aarch64/aarch64-sve-builtins.h
(sve_switcher::m_old_general_regs_only): New member.
* config/aarch64/aarch64-sve-builtins.cc (check_required_registers):
New function.
(reported_missing_registers_p): New variable.
(check_required_extensions): Call check_required_registers before
return if all required extenstions are present.
(sve_switcher::sve_switcher): Save TARGET_GENERAL_REGS_ONLY in
m_old_general_regs_only and clear MASK_GENERAL_REGS_ONLY in
global_options.x_target_flags.
(sve_switcher::~sve_switcher): Set MASK_GENERAL_REGS_ONLY in
global_options.x_target_flags if m_old_general_regs_only is true.
gcc/testsuite/
PR target/94678
* gcc.target/aarch64/sve/acle/general/nosve_6.c: New test.
For future architecture with prefix instructions, always use plq/pstq
rather than lq/stq for atomic load of quadword. Then we never have to
do the doubleword swap on little endian. Before this fix, -mno-pcrel
would generate lq with the doubleword swap (which was ok) and -mpcrel
would generate plq, also with the doubleword swap, which was wrong.
2020-04-20 Aaron Sawdey <acsawdey@linux.ibm.com>
PR target/94622
* config/rs6000/sync.md (load_quadpti): Add attr "prefixed"
if TARGET_PREFIXED.
(store_quadpti): Ditto.
(atomic_load<mode>): Do not swap doublewords if TARGET_PREFIXED as
plq will be used and doesn't need it.
(atomic_store<mode>): Ditto, for pstq.
These warnings have nothing to do with virtual functions, so "override"
is inappropriate. The warnings are just talking about defining special
members, so let's say that.
PR translation/94698
* class.c (check_field_decls): Change "override" to "define" in
-Weffc++ diagnostics.
2020-04-22 José Rui Faustino de Sousa <jrfsousa@gmail.com>
PR fortran/90350
* simplify.c (simplify_bound): In the case of assumed-size arrays
check if the reference is to a full array.
2020-04-22 José Rui Faustino de Sousa <jrfsousa@gmail.com>
PR fortran/90350
* gfortran.dg/PR90350.f90: New test.
ia64 seems to be affected too, but the backend doesn't have any
-Wpsabi warnings and I'm not sure if we really need them for an (almost?)
dead target.
2020-04-22 Jakub Jelinek <jakub@redhat.com>
PR target/94706
* config/ia64/ia64.c (hfa_element_mode): Ignore
cxx17_empty_base_field_p fields.
As multiple targets are affected apparently, I believe at least
aarch64, arm, powerpc64le, s390{,x} and ia64,
I think we should have a middle-end predicate for this, so that if we need
to tweak it, we can do it in one spot.
2020-04-22 Jakub Jelinek <jakub@redhat.com>
PR target/94383
* calls.h (cxx17_empty_base_field_p): Declare.
* calls.c (cxx17_empty_base_field_p): Define.
Since arm_acle.h includes stdint.h, its use requires the presence of
the right gnu/stub-*.h, so make sure to include arm_acle.h when
checking the effective targets that generally imply that the testcase
will include it: arm_dsp, arm_crc, arm_coproc[1-4]
This makes several tests unsupported rather than fail.
2020-04-22 Christophe Lyon <christophe.lyon@linaro.org>
gcc/testsuite/
* lib/target-supports.exp (check_effective_target_arm_dsp)
(check_effective_target_arm_crc_ok_nocache)
(check_effective_target_arm_coproc1_ok_nocache)
(check_effective_target_arm_coproc2_ok_nocache)
(check_effective_target_arm_coproc3_ok_nocache)
(check_effective_target_arm_coproc4_ok_nocache): Include
arm_acle.h.
Since arm_cde.h includes stdint.h, its use requires the presence of
the right gnu/stub-*.h, so make sure to include it when checking the
arm_v8*m_main_cde* effective targets, otherwise we can decide CDE is
supported while it's not really (all tests that use arm_v8m_main_cde*
also include arm_cde.h aynway).
Similarly for the effective targets that also require MVE.
This makes several tests unsupported rather than fail.
2020-04-22 Christophe Lyon <christophe.lyon@linaro.org>
gcc/testsuite/
* lib/target-supports.exp (arm_v8m_main_cde, arm_v8m_main_cde_fp)
(arm_v8_1m_main_cde_mve, arm_v8_1m_main_cde_mve_fp): Include
arm_cde.h and arm_mve.h as ineeded.
Since arm_mve.h includes stdint.h, its use requires the presence of
the right gnu/stub-*.h, so make sure to include it when checking the
arm_v8_1m_mve_ok_nocache effective target, otherwise we can decide MVE
is supported while it's not really. This makes several tests
unsupported rather than fail.
2020-04-22 Christophe Lyon <christophe.lyon@linaro.org>
gcc/testsuite/
* lib/target-supports.exp
(check_effective_target_arm_v8_1m_mve_ok_nocache): Include
arm_mve.h.
Several ARM/MVE tests can be compiled even if the toolchain does not
support -mfloat-abi=hard (softfp is OK).
Use dg-add-options arm_v8_1m_mve or arm_v8_1m_mve_fp instead of using
dg-additional-options.
2020-04-22 Christophe Lyon <christophe.lyon@linaro.org>
gcc/testsuite/
* gcc.target/arm/mve/intrinsics/mve_vector_float.c: Use
arm_v8_1m_mve_fp.
* gcc.target/arm/mve/intrinsics/mve_vector_float1.c: Likewise.
* gcc.target/arm/mve/intrinsics/mve_vector_float2.c: Likewise.
* gcc.target/arm/mve/intrinsics/mve_vector_int.c: Use
arm_v8_1m_mve.
* gcc.target/arm/mve/intrinsics/mve_vector_int1.c: Likewise.
* gcc.target/arm/mve/intrinsics/mve_vector_int2.c: Likewise.
* gcc.target/arm/mve/intrinsics/mve_vector_uint.c: Likewise.
* gcc.target/arm/mve/intrinsics/mve_vector_uint1.c: Likewise.
* gcc.target/arm/mve/intrinsics/mve_vector_uint2.c: Likewise.
This test can pass with a hard-float toolchain, provided we don't
force -mfloat-abi=softfp.
This patch removes this useless option, as well as -save-temps which
is implied by arm_v8_1m_mve_fp.
2020-04-22 Christophe Lyon <christophe.lyon@linaro.org>
gcc/testsuite/
* gcc.target/arm/mve/intrinsics/mve_move_gpr_to_gpr.c: Remove
useless options.
Some MVE tests explicitly test a -mfloat-abi=hard option, but we need
to check that the toolchain actually supports it (which may not be the
case for arm-linux-gnueabi* targets). We can thus remove the related
dg-skip directives.
We also make use of dg-add-options arm_v8_1m_mve_fp and arm_v8_1m_mve
instead of duplicating the corresponding options in
dg-additional-options where we keep only -mfloat-abi to override the
option selected by arm_v8_1m_mve_fp.
2020-04-22 Christophe Lyon <christophe.lyon@linaro.org>
gcc/testsuite/
* gcc.target/arm/mve/intrinsics/mve_fp_fpu1.c: Use arm_hard_ok
effective target and arm_v8_1m_mve_fp options.
* gcc.target/arm/mve/intrinsics/mve_fp_fpu2.c: Use arm_softfp_ok
effective target and arm_v8_1m_mve_fp options.
* gcc.target/arm/mve/intrinsics/mve_fpu1.c: Use arm_hard_ok
effective target and arm_v8_1m_mve options.
* gcc.target/arm/mve/intrinsics/mve_fpu2.c: Use arm_softfp_ok
effective target and arm_v8_1m_mve options.
For arm-linux-gnueabi* targets, a toolchain cannot support the
float-abi opposite to the one it has been configured for: since glibc
does not support such multilibs, we end up lacking gnu/stubs-*.h when
including stdint.h for instance.
This patch introduces two new effective targets to detect whether we
can compile tests with -mfloat-abi=softfp or -mfloat-abi=hard.
This enables to make such tests unsupported rather than fail.
2020-04-22 Christophe Lyon <christophe.lyon@linaro.org>
gcc/testsuite/
* lib/target-supports.exp (arm_softfp_ok): New effective target.
(arm_hard_ok): Likewise.
gcc/
* doc/sourcebuild.texi (arm_softfp_ok, arm_hard_ok): Document.
This patch adds initial -mcpu support for the Arm Cortex-M55 CPU.
This CPU is an Armv8.1-M Mainline CPU supporting MVE.
An option to disable floating-point (and MVE) is provided with the +nofp.
For GCC 11 I'd like to add further fine-grained options to enable integer-only MVE
but that needs a bit more elaborate surgery in arm-cpus.in that I don't want to do
in GCC 10 at this stage.
As this CPU is not supported in gas and I don't want to couple GCC 10 to the very
latest binutils anyway, this CPU emits the cpu string in the assembly file as a build attribute
rather than a .cpu directive, thus sparing us the need to support .cpu cortex-m55 in gas.
The .cpu directive in gas isn't used for anything besides setting the Tag_CPU_name
build attribute anyway (which itself is not used by any tools I'm aware of).
All the architecture information used for target detection is already emitted using .arch_extension
directives and similar.
Bootstrapped and tested on arm-none-linux-gnueabihf. Also tested on arm-none-eabi.
2020-04-22 Kyrylo Tkachov <kyrylo.tkachov@arm.com>
Andre Vieira <andre.simoesdiasvieira@arm.com>
Mihail Ionescu <mihail.ionescu@arm.com>
* config/arm/arm.c (arm_file_start): Handle isa_bit_quirk_no_asmcpu.
* config/arm/arm-cpus.in (quirk_no_asmcpu): Define.
(ALL_QUIRKS): Add quirk_no_asmcpu.
(cortex-m55): Define new cpu.
* config/arm/arm-tables.opt: Regenerate.
* config/arm/arm-tune.md: Likewise.
* doc/invoke.texi (Arm Options): Document -mcpu=cortex-m55.
