If we allow __strub_leave to allocate a frame on sparc, it will
overlap with a lot of the stack range we're supposed to scrub, because
of the large fixed-size outgoing args and register save area.
Unfortunately, setting up the PIC register seems to prevent the frame
pointer from being omitted.
Since the strub runtime doesn't issue calls or use global variables,
at least on sparc, disabling PIC to compile strub.c seems to do the
right thing.
for libgcc/ChangeLog
PR middle-end/112917
* config.host (sparc, sparc64): Enable...
* config/sparc/t-sparc: ... this new fragment.
Builtin expanders for memset and memcpy may involve conditionals and
loops, but their sequences may be end up emitted in edges. Alas,
commit_one_edge_insertion rejects sequences that end with a jump, a
requirement that makes sense for insertions after expand, but not so
much during expand.
During expand, jumps may appear in the middle of the insert sequence
as much as in the end, and it's only after committing edge insertions
out of PHI nodes that we go through the entire function splitting
blocks where needed, so relax the assert in commit_one_edge_insertion
so that jumps are accepted during expand even at the end of the
sequence.
for gcc/ChangeLog
PR rtl-optimization/113002
* cfgrtl.cc (commit_one_edge_insertion): Tolerate jumps in the
inserted sequence during expand.
for gcc/testsuite/ChangeLog
PR rtl-optimization/113002
* gcc.dg/vect/pr113002.c: New.
Instead of get and set macros to apply a delta, use a single macro
that resorts to a temporary wrapper class to apply it.
for gcc/ChangeLog
* builtins.cc (delta_type): New template class.
(set_apply_args_size, get_apply_args_size): Replace with...
(saved_apply_args_size): ... this.
(set_apply_result_size, get_apply_result_size): Replace with...
(saved_apply_result_size): ... this.
(apply_args_size, apply_result_size): Adjust.
The GCC manual has a whole section on signedness of bitfields with the ultimate
conclusion that the property really isn't an ABI issue, but instead a C dialect
issue (agreed). Furthermore it concludes that all targets should behave the
same by default.
So it was a mistake for the mcore port to force bitfields to be unsigned and
that never should have been included. This patch rectifies that problem.
I should have remembered this -- I went down this path once in the 90s. I
don't recall which port anymore, but once Joseph mentioned this policy bits and
pieces did start to come back to me.
Restoring the proper default happens to also fix 170 tests in the GCC
testsuite, some of which would go into infinite loops when bitfields were
treated as signed values (pr88621 for example). Essentially the testing time
cuts in half, which was actually the point of digging into pr88621 to begin
with.
gcc/
* config/mcore/mcore.h (CC1_SPEC): Do not set -funsigned-bitfields.
I added some -finline-stringops tests that included memcmp-1.c, but
carried over the timeout factor onto only one such test. Jeff Law
kindly pointed that out (thanks!), so here's the fix.
for gcc/testsuite/ChangeLog
* gcc.dg/torture/inline-mem-cmp-1.c: Copy timeout factor from
mem-cmp-1.c.
* gcc.dg/torture/inline-mem-cpy-1.c: Likewise.
It is always safe to set the computed bit for dynamic object sizes at
the end of collect_object_sizes_for because even in case of a dependency
loop encountered in nested calls, we have an SSA temporary to actually
finish the object size expression. The reexamine pass for dynamic
object sizes is only for propagation of unknowns and gimplification of
the size expressions, not for loop resolution as in the case of static
object sizes.
gcc/ChangeLog:
PR tree-optimization/113012
* tree-object-size.cc (compute_builtin_object_size): Expand
comment for dynamic object sizes.
(collect_object_sizes_for): Always set COMPUTED bitmap for
dynamic object sizes.
gcc/testsuite/ChangeLog:
PR tree-optimization/113012
* gcc.dg/ubsan/pr113012.c: New test case.
Signed-off-by: Siddhesh Poyarekar <siddhesh@gotplt.org>
Instead of global optimization levels and flags, check per-function
ones.
for gcc/ChangeLog
* ipa-strub.cc (gsi_insert_finally_seq_after_call): Likewise.
(pass_ipa_strub::adjust_at_calls_call): Likewise.
The strub builtins are not suited for cross-unit inlining, they should
only be inlined by the builtin expanders, if at all. While testing on
sparc64, it occurred to me that, if libgcc was built with LTO enabled,
lto1 might inline them, and that would likely break things. So, make
sure they're clearly marked as not inlinable.
for libgcc/ChangeLog
* strub.c (ATTRIBUTE_NOINLINE): New.
(ATTRIBUTE_STRUB_CALLABLE): Add it.
(__strub_dummy_force_no_leaf): Drop it.
sol2.h may define LINK_PIE_SPEC and leave LD_PIE_SPEC undefined, but
gcc.cc will only provide a LD_PIE_SPEC definition if LINK_PIE_SPEC is
not defined, and thenit uses LD_PIE_SPEC guarded by #ifdef HAVE_LD_PIE
only. Add LD_PIE_SPEC to the guard.
gcc/ChangeLog
* gcc.cc (process_command): Use LD_PIE_SPEC only if defined.
Here we first use and therefore synthesize the local class operator<=>
from an unevaluated context, which inadvertently affects synthesization
by preventing functions used within the definition (such as the copy
constructor of std::strong_ordering) from getting marked as odr-used.
This patch fixes this by using maybe_push_to_top_level in synthesize_method
which ensures cp_unevaluated_operand gets cleared even in the function-local
case.
PR c++/113063
gcc/cp/ChangeLog:
* method.cc (synthesize_method): Use maybe_push_to_top_level
and maybe_pop_from_top_level.
gcc/testsuite/ChangeLog:
* g++.dg/cpp2a/spaceship-synth16.C: New test.
In the function-local case of maybe_pop_from_top_level, we need to
restore the global flags that maybe_push_to_top_level cleared.
gcc/cp/ChangeLog:
* name-lookup.cc (struct local_state_t): Define.
(local_state_stack): Define.
(maybe_push_to_top_level): Use them.
(maybe_pop_from_top_level): Likewise.
* pt.cc (instantiate_decl): Remove dead code for saving/restoring
cp_unevaluated_operand and c_inhibit_evaluation_warnings.
Calling a non-static member function on a null pointer is undefined
behaviour (see [expr.ref] p8) and should error in constant evaluation,
even if the 'this' pointer is never actually accessed within that
function.
One catch is that currently, the function pointer conversion operator
for lambdas passes a null pointer as the 'this' pointer to the
underlying 'operator()', so for now we ignore such calls.
PR c++/102420
gcc/cp/ChangeLog:
* constexpr.cc (cxx_bind_parameters_in_call): Check for calling
non-static member functions with a null pointer.
gcc/testsuite/ChangeLog:
* g++.dg/cpp0x/constexpr-memfn2.C: New test.
Signed-off-by: Nathaniel Shead <nathanieloshead@gmail.com>
The linking of libgcc is already present in %(liborig), so the current
situation duplicates libraries. This was not an issue until macOS's new
linker started giving warnings for such cases.
libgfortran/ChangeLog:
PR libfortran/110651
* libgfortran.spec.in: Remove duplicate libraries.
This patch adds "hpe" to the known properties for the "vendor" selector,
and support for "acquire" and "release" for "atomic_default_mem_order".
gcc/ChangeLog
* omp-general.cc (vendor_properties): Add "hpe".
(atomic_default_mem_order_properties): Add "acquire" and "release".
(omp_context_selector_matches): Handle "acquire" and "release".
gcc/testsuite/ChangeLog
* c-c++-common/gomp/declare-variant-2.c: Don't expect error on
"acquire" and "release".
* gfortran.dg/gomp/declare-variant-2a.f90: Likewise.
This patch introduces enumerators to represent trait-set names and
trait names, which makes it easier to use tables to control other
behavior and for switch statements to dispatch on the tags. The tags
are stored in the same place in the TREE_LIST structure (OMP_TSS_ID or
OMP_TS_ID) and are encoded there as integer constants.
gcc/ChangeLog
* omp-selectors.h: New file.
* omp-general.h: Include omp-selectors.h.
(OMP_TSS_CODE, OMP_TSS_NAME): New.
(OMP_TS_CODE, OMP_TS_NAME): New.
(make_trait_set_selector, make_trait_selector): Adjust declarations.
(omp_construct_traits_to_codes): Likewise.
(omp_context_selector_set_compare): Likewise.
(omp_get_context_selector): Likewise.
(omp_get_context_selector_list): New.
* omp-general.cc (omp_construct_traits_to_codes): Pass length in
as argument instead of returning it. Make it table-driven.
(omp_tss_map): New.
(kind_properties, vendor_properties, extension_properties): New.
(atomic_default_mem_order_properties): New.
(omp_ts_map): New.
(omp_check_context_selector): Simplify lookup and dispatch logic.
(omp_mark_declare_variant): Ignore variants with unknown construct
selectors. Adjust for new representation.
(make_trait_set_selector, make_trait_selector): Adjust for new
representations.
(omp_context_selector_matches): Simplify dispatch logic. Avoid
fixed-sized buffers and adjust call to omp_construct_traits_to_codes.
(omp_context_selector_props_compare): Adjust for new representations
and simplify dispatch logic.
(omp_context_selector_set_compare): Likewise.
(omp_context_selector_compare): Likewise.
(omp_get_context_selector): Adjust for new representations, and split
out...
(omp_get_context_selector_list): New function.
(omp_lookup_tss_code): New.
(omp_lookup_ts_code): New.
(omp_context_compute_score): Adjust for new representations. Avoid
fixed-sized buffers and magic numbers. Adjust call to
omp_construct_traits_to_codes.
* gimplify.cc (omp_construct_selector_matches): Avoid use of
fixed-size buffer. Adjust call to omp_construct_traits_to_codes.
gcc/c/ChangeLog
* c-parser.cc (omp_construct_selectors): Delete.
(omp_device_selectors): Delete.
(omp_implementation_selectors): Delete.
(omp_user_selectors): Delete.
(c_parser_omp_context_selector): Adjust for new representations
and simplify dispatch logic. Uniformly warn instead of sometimes
error when an unknown selector is found. Adjust error messages
for extraneous/incorrect score.
(c_parser_omp_context_selector_specification): Likewise.
(c_finish_omp_declare_variant): Adjust for new representations.
gcc/cp/ChangeLog
* decl.cc (omp_declare_variant_finalize_one): Adjust for new
representations.
* parser.cc (omp_construct_selectors): Delete.
(omp_device_selectors): Delete.
(omp_implementation_selectors): Delete.
(omp_user_selectors): Delete.
(cp_parser_omp_context_selector): Adjust for new representations
and simplify dispatch logic. Uniformly warn instead of sometimes
error when an unknown selector is found. Adjust error messages
for extraneous/incorrect score.
(cp_parser_omp_context_selector_specification): Likewise.
* pt.cc (tsubst_attribute): Adjust for new representations.
gcc/fortran/ChangeLog
* gfortran.h: Include omp-selectors.h.
(enum gfc_omp_trait_property_kind): Delete, and replace all
references with equivalent omp_tp_type enumerators.
(struct gfc_omp_trait_property): Update for omp_tp_type.
(struct gfc_omp_selector): Replace string name with new enumerator.
(struct gfc_omp_set_selector): Likewise.
* openmp.cc (gfc_free_omp_trait_property_list): Update for
omp_tp_type.
(omp_construct_selectors): Delete.
(omp_device_selectors): Delete.
(omp_implementation_selectors): Delete.
(omp_user_selectors): Delete.
(gfc_ignore_trait_property_extension): New.
(gfc_ignore_trait_property_extension_list): New.
(gfc_match_omp_selector): Adjust for new representations and simplify
dispatch logic. Uniformly warn instead of sometimes error when an
unknown selector is found.
(gfc_match_omp_context_selector): Adjust for new representations.
Adjust error messages for extraneous/incorrect score.
(gfc_match_omp_context_selector_specification): Likewise.
* trans-openmp.cc (gfc_trans_omp_declare_variant): Adjust for
new representations.
gcc/testsuite/
* c-c++-common/gomp/declare-variant-1.c: Expect warning on
unknown selectors.
* c-c++-common/gomp/declare-variant-2.c: Likewise. Also adjust
messages for score errors.
* c-c++-common/gomp/declare-variant-no-score.c: New.
* gfortran.dg/gomp/declare-variant-1.f90: Expect warning on
unknown selectors.
* gfortran.dg/gomp/declare-variant-2.f90: Likewise. Also adjust
messages for score errors.
* gfortran.dg/gomp/declare-variant-no-score.f90: New.
Previously, name-list properties specified as identifiers were stored
in the TREE_PURPOSE/OMP_TP_NAME slot, while those specified as strings
were stored in the TREE_VALUE/OMP_TP_VALUE slot. This patch puts both
representations in OMP_TP_VALUE with a magic cookie in OMP_TP_NAME.
gcc/ChangeLog
* omp-general.h (OMP_TP_NAMELIST_NODE): New.
* omp-general.cc (omp_context_name_list_prop): Move earlier
in the file, and adjust for new representation.
(omp_check_context_selector): Adjust this too.
(omp_context_selector_props_compare): Likewise.
gcc/c/ChangeLog
* c-parser.cc (c_parser_omp_context_selector): Adjust for new
namelist property representation.
gcc/cp/ChangeLog
* parser.cc (cp_parser_omp_context_selector): Adjust for new
namelist property representation.
* pt.cc (tsubst_attribute): Likewise.
gcc/fortran/ChangeLog
* trans-openmp.cc (gfc_trans_omp_declare_varaint): Adjust for
new namelist property representation.
This patch hides the underlying nested TREE_LIST structure of context
selectors behind accessor macros that have more meaningful names than
the generic TREE_PURPOSE/TREE_VALUE accessors. There is a slight
change to the representation in that the score expression in
trait-selectors has a distinguished tag and is separated from the
ordinary properties, although internally it is still represented as
the first item in the TREE_VALUE of the selector. This patch also renames
some local variables with slightly more descriptive names so it is easier
to track whether something is a selector-set, selector, or property.
gcc/ChangeLog
* omp-general.h (OMP_TS_SCORE_NODE): New.
(OMP_TSS_ID, OMP_TSS_TRAIT_SELECTORS): New.
(OMP_TS_ID, OMP_TS_SCORE, OMP_TS_PROPERTIES): New.
(OMP_TP_NAME, OMP_TP_VALUE): New.
(make_trait_set_selector): Declare.
(make_trait_selector): Declare.
(make_trait_property): Declare.
(omp_constructor_traits_to_codes): Rename to
omp_construct_traits_to_codes.
* omp-general.cc (omp_constructor_traits_to_codes): Rename
to omp_construct_traits_to_codes. Use new accessors.
(omp_check_context_selector): Use new accessors.
(make_trait_set_selector): New.
(make_trait_selector): New.
(make_trait_property): New.
(omp_context_name_list_prop): Use new accessors.
(omp_context_selector_matches): Use new accessors.
(omp_context_selector_props_compare): Use new accessors.
(omp_context_selector_set_compare): Use new accessors.
(omp_get_context_selector): Use new accessors.
(omp_context_compute_score): Use new accessors.
* gimplify.cc (omp_construct_selector_matches): Adjust for renaming
of omp_constructor_traits_to_codes.
gcc/c/ChangeLog
* c-parser.cc (c_parser_omp_context_selector): Use new constructors.
gcc/cp/ChangeLog
* parser.cc (cp_parser_omp_context_selector): Use new constructors.
* pt.cc: Include omp-general.h.
(tsubst_attribute): Use new context selector accessors and
constructors.
gcc/fortran/ChangeLog
* trans-openmp.cc (gfc_trans_omp_declare_variant): Use new
constructors.
The BTF specification does not formally define a representation for
forward-declared enum types such as:
enum Foo;
Forward-declarations for struct and union types are represented by
BTF_KIND_FWD, which has a 1-bit flag distinguishing the two.
The de-facto standard format used by other tools like clang and pahole
is to represent forward-declared enums as BTF_KIND_ENUM with vlen=0,
i.e. as a regular enum type with no enumerators. This patch changes
GCC to adopt that format, and makes a couple of minor cleanups in
btf_asm_type ().
gcc/
PR debug/111735
* btfout.cc (btf_fwd_to_enum_p): New.
(btf_asm_type_ref): Special case references to enum forwards.
(btf_asm_type): Special case enum forwards. Rename btf_size_type to
btf_size, and change chained ifs switching on btf_kind into else ifs.
gcc/testsuite/
PR debug/111735
* gcc.dg/debug/btf/btf-forward-2.c: New test.
During partial ordering, we want to look through dependent alias
template specializations within template arguments and otherwise
treat them as opaque in other contexts (see e.g. r7-7116-g0c942f3edab108
and r11-7011-g6e0a231a4aa240). To that end template_args_equal was
given a partial_order flag that controls this behavior. This flag
does the right thing when a dependent alias template specialization
appears as template argument of the partial specialization, e.g. in
template<class T, class...> using first_t = T;
template<class T> struct traits;
template<class T> struct traits<first_t<T, T&>> { }; // #1
template<class T> struct traits<first_t<const T, T&>> { }; // #2
we correctly consider #2 to be more specialized than #1. But if the
alias specialization appears as a nested template argument of another
class template specialization, e.g. in
template<class T> struct traits<A<first_t<T, T&>>> { }; // #1
template<class T> struct traits<A<first_t<const T, T&>>> { }; // #2
then we incorrectly consider #1 and #2 to be unordered. This is because
1. we don't propagate the flag to recursive template_args_equal calls
2. we don't use structural equality for class template specializations
written in terms of dependent alias template specializations
This patch fixes the first issue by turning the partial_order flag into
a global. This patch fixes the second issue by making us propagate
structural equality appropriately when building a class template
specialization. In passing this patch also improves hashing of
specializations that use structural equality.
PR c++/90679
gcc/cp/ChangeLog:
* cp-tree.h (comp_template_args): Remove partial_order parameter.
(template_args_equal): Likewise.
* pt.cc (comparing_for_partial_ordering): New global flag.
(iterative_hash_template_arg) <case tcc_type>: Hash the template
and arguments for specializations that use structural equality.
(template_args_equal): Remove partial order parameter and
use comparing_for_partial_ordering instead.
(comp_template_args): Likewise.
(comp_template_args_porder): Set comparing_for_partial_ordering
instead. Make static.
(any_template_arguments_need_structural_equality_p): Return true
for an argument that's a dependent alias template specialization
or a class template specialization that itself needs structural
equality.
* tree.cc (cp_tree_equal) <case TREE_VEC>: Adjust call to
comp_template_args.
gcc/testsuite/ChangeLog:
* g++.dg/cpp0x/alias-decl-75a.C: New test.
* g++.dg/cpp0x/alias-decl-75b.C: New test.
For a (complex) alias template-id, dependent_alias_template_spec_p
returns true if any template argument of the template-id is dependent.
This predicate indicates that substitution into the template-id may
behave differently with respect to SFINAE than substitution into the
expanded alias, and so the alias is in a way non-transparent.
For example, 'first_t<T, T&>' in
template<class T, class...> using first_t = T;
template<class T> first_t<T, T&> f();
is such an alias template-id since first_t doesn't use its second
template parameter and so the substitution into the expanded alias would
discard the SFINAE effects of the corresponding (dependent) argument 'T&'.
But this predicate is overly conservative since what really matters for
sake of SFINAE equivalence is whether a template argument corresponding
to an _unused_ template parameter is dependent. So the predicate should
return false for e.g. 'first_t<T&, int>'.
This patch refines the predicate appropriately. We need to be able to
efficiently determine which template parameters of a complex alias
template are unused, so to that end we add a new out parameter to
complex_alias_template_p and cache its result in an on-the-side hash_map
that replaces the existing TEMPLATE_DECL_COMPLEX_ALIAS_P flag.
PR c++/90679
gcc/cp/ChangeLog:
* cp-tree.h (TEMPLATE_DECL_COMPLEX_ALIAS_P): Remove.
(most_general_template): Constify parameter.
* pt.cc (push_template_decl): Adjust after removing
TEMPLATE_DECL_COMPLEX_ALIAS_P.
(complex_alias_tmpl_info): New hash_map.
(uses_all_template_parms_data::seen): Change type to
tree* from bool*.
(complex_alias_template_r): Adjust accordingly.
(complex_alias_template_p): Add 'seen_out' out parameter.
Call most_general_template and check PRIMARY_TEMPLATE_P.
Use complex_alias_tmpl_info to cache the result and set
'*seen_out' accordigly.
(dependent_alias_template_spec_p): Add !processing_template_decl
early exit test. Consider dependence of only template arguments
corresponding to seen template parameters as per
gcc/testsuite/ChangeLog:
* g++.dg/cpp0x/alias-decl-76.C: New test.
On non-hosted targets, cstdlib may not be sufficient to have abort
defined, but it should be for std::abort.
gcc/testsuite/ChangeLog:
* g++.target/i386/excess-precision-12.C: call std::abort instead of abort.
Add the ada.html and ada.install-html targets so that we can build the
html with `make html`.
gcc/ada/
* gcc-interface/Make-lang.in (ada.html, ada.install-html): Add.
The problem is that the predicated subtype does not inherit all the required
attributes of a string subtype with a static predicate.
gcc/ada/
* sem_ch3.adb (Analyze_Subtype_Declaration): Remove a short-circuit
for subtypes without aspects when it comes to predicates.
* sem_util.adb (Inherit_Predicate_Flags): Deal with private subtypes
whose full view is an Itype.
The compiler fails to reject a container aggregate written using positional
notation when the container type specifies an Add_Named operation in its
Aggregate aspect. Container aggregates for such types must be written using
named associations. The compiler ignores the positional associations and
produces an empty aggregate object. An error check is added to catch such
illegal container aggregates.
gcc/ada/
* sem_aggr.adb (Resolve_Container_Aggregate): In the Add_Named
case, issue an error if the container aggregate is written as a
positional aggregate, since such an aggregate must have named
associations.
Remove GNATcheck violations by refactoring code and also using
pragma Annotate to exempt them.
gcc/ada/
* libgnat/a-comlin.adb (Argument_Count): Rewrite code so there is
only one return, to remove Improper_Returns violation.
(Command_Name): Add pragma to exempt Improper_Returns violation.
The compiler hangs (or may crash, if assertions are enabled) when compiling
an iterated association of a container aggregate that has a key expression
given by a function call. The resolution of the call leads to a blowup in
Build_Call_Marker, because the temporary copy of the expression that's
analyzed has an Empty parent, causing insertion of the call marker to fail.
The fix for this is to preanalyze, rather than analyze, the copy of the key
expression (Build_Call_Marker will return without creating a call marker in
the case of preanalysis).
gcc/ada/
* sem_aggr.adb (Resolve_Iterated_Association): Call
Preanalyze_And_Resolve instead of Analyze_And_Resolve on a key
expression of an iterated association.
Routine Get_Logical_Line_Number_Img was introduced for splitting of
Pre/Post contracts, but subsequent patch for that feature removed its
only use. It was then used by GNATprove, but that use is now removed
as well.
gcc/ada/
* sinput.adb, sinput.ads (Get_Logical_Line_Number_Img): Remove.
It was previously assumed that configurable runtimes could not return exit
statuses, however this assumption no longer holds. Instead, only import
the required symbols from Ada.Command_Line's support packages if
Ada.Command_Line is in the closure of the partition when a configurable
runtime is used.
gcc/ada/
* bindgen.adb (Command_Line_Used): New object.
(Gen_Main): Only generate references to symbols used by
Ada.Command_Line if the package is used by the partition.
(Gen_Output_File_Ada): Ditto.
(Resolve_Binder_Options): Check if Ada.Command_Line is in the
closure of the partition.
The current wording of SPARK RM 6.1.5(5) about the inputs for the
Depends contract doesn't mention "a record with at least one
unconstrained component".
gcc/ada/
* sem_prag.adb (Is_Unconstrained_Or_Tagged_Item): Update comment
and body.
The flag is set on the constructed subtype of an object with unconstrained
nominal subtype that is aliased and is used by the code generator to adjust
the layout of the object.
But it is actually only used for array subtypes, where it determines whether
the object is allocated with its bounds, and this usage could be extended to
other cases than the original case.
gcc/ada/
* einfo.ads (Is_Constr_Subt_For_UN_Aliased): Rename into...
(Is_Constr_Array_Subt_With_Bounds): ...this.
* exp_ch3.adb (Expand_N_Object_Declaration): Adjust to above
renaming and remove now redundant test.
* sem_ch3.adb (Analyze_Object_Declaration): Likewise, but set
Is_Constr_Array_Subt_With_Bounds only on arrays.
* gen_il-fields.ads (Opt_Field_Enum): Apply same renaming.
* gen_il-gen-gen_entities.adb (Entity_Kind): Likewise.
* gen_il-internals.adb (Image): Remove specific processing for
Is_Constr_Subt_For_UN_Aliased.
* treepr.adb (Image): Likewise.
* gcc-interface/decl.cc (gnat_to_gnu_entity): Adjust to renaming
and remove now redundant tests.
* gcc-interface/trans.cc (Identifier_to_gnu): Likewise.
(Call_to_gnu): Likewise.
Some of our restricted runtimes support dynamic priorities. The binder
needs to generate code for a restricted runtime even if the restriction
No_Dynamic_Priorities is not in place.
gcc/ada/
* libgnat/s-rident.ads: Remove No_Dynamic_Priorities from
Restricted_Tasking.
The behaviour of the binder when handling command line arguments and exit
codes is simplified so that references to the corresponding runtime symbols
are always generated when the runtime is configured with command line
argument and exit code support. This allows Ada.Command_Line to work with
all runtimes, which was not the case previously.
As a result of this change, configurable runtimes that do not include
Ada.Command_Line and it support files, but are configured with
Command_Line_Args and/or Exit_Status_Supported set to True will need to
provide the symbols required by the binder, as these symbols will no longer
be defined in the binder generated file.
argv.c includes a small change to exclude adaint.h when compiling for a
light runtime, since this header is not required.
gcc/ada/
* argv.c: Do not include adaint.h if LIGHT_RUNTIME is defined.
* bindgen.adb (Gen_Main): Simplify command line argument and exit
handling by requiring the runtime to always provide the required
symbols if command line argument and exit code is enabled.
* targparm.ads: Update comments to reflect changes to gnatbind.
Before this patch, the compiler would fail to examine the corresponding
record types of concurrent types when building aggregate components.
This patch fixes this, and adds a precondition and additional documentation
on the subprogram that triggered the crash, as it never makes sense
to call it with a concurrent type.
gcc/ada/
* exp_aggr.adb (Initialize_Component): Use corresponding record
types of concurrent types.
* exp_util.ads (Make_Tag_Assignment_From_Type): Add precondition
and extend documentation.
Co-authored-by: Javier Miranda <miranda@adacore.com>
This removes the setting of the Is_Ignored_Transient flag on the temporaries
needing finalization created by Expand_Ctrl_Function_Call when invoked from
within the dependent expressions of conditional expressions.
This flag tells the general finalization machinery to disregard the object.
But temporaries needing finalization present in action lists of dependent
expressions are picked up by Process_Transients_In_Expression, which deals
with their finalization and sets the Is_Finalized_Transient flag on them.
Now this latter flag has exactly the same effect as Is_Ignored_Transient
as far as the general finalization machinery is concerned, so setting the
flag is unnecessary. In the end, the flag can be decoupled entirely from
transient objects and renamed into Is_Ignored_For_Finalization.
This also moves around the declaration of a local variable and turns a
library-level procedure into a nested procedure.
gcc/ada/
* einfo.ads (Is_Ignored_Transient): Rename into...
(Is_Ignored_For_Finalization): ...this.
* gen_il-fields.ads (Opt_Field_Enum): Adjust to above renaming.
* gen_il-gen-gen_entities.adb (Object_Kind): Likewise.
* exp_aggr.adb (Expand_Array_Aggregate): Likewise.
* exp_ch7.adb (Build_Finalizer.Process_Declarations): Likewise.
* exp_util.adb (Requires_Cleanup_Actions): Likewise.
* exp_ch4.adb (Expand_N_If_Expression): Move down declaration of
variable Optimize_Return_Stmt.
(Process_Transient_In_Expression): Turn procedure into a child of...
(Process_Transients_In_Expression): ...this procedure.
* exp_ch6.adb (Expand_Ctrl_Function_Call): Remove obsolete setting
of Is_Ignored_Transient flag on the temporary if within a dependent
expression of a conditional expression.
GNATprove supports container aggregates, except for indexed aggregates.
It needs all expressions to have suitable target types and Do_Range_Check
flags, which are added by the special expansion for GNATprove.
There is no impact on code generation.
gcc/ada/
* exp_spark.adb (Expand_SPARK_N_Aggregate): New procedure for the
special expansion.
(Expand_SPARK): Call the new expansion procedure.
* sem_util.adb (Is_Container_Aggregate): Implement missing test.
Ancestor_Type is overloaded with Aggregate_Bounds on N_Aggregate nodes
so its access needs to be guarded in Copy_Generic_Node.
gcc/ada/
* sem_ch12.adb (Copy_Generic_Node): Add guard for Ancestor_Type.
This occurs for an aggregate of a derived tagged type in the body of the
instance, because the full view of the parent type, which was visible in
the generic construct (otherwise the aggregate would have been illegal),
is not restored in the body of the instance.
Copy_Generic_Node already contains code to restore the full view in this
case, but it works only if the derived tagged type is itself global to
the generic construct, and not if the derived tagged type is local but
the parent type global, as is the case here.
gcc/ada/
* gen_il-fields.ads (Aggregate_Bounds): Rename to
Aggregate_Bounds_Or_Ancestor_Type.
* gen_il-gen-gen_nodes.adb (Aggregate_Bounds): Likewise.
* sem_aggr.adb (Resolve_Record_Aggregate): Remove obsolete bypass.
* sem_ch12.adb (Check_Generic_Actuals): Add decoration.
(Copy_Generic_Node): For an extension aggregate, restore only the
full view, if any. For a full aggregate, restore the full view as
well as that of its Ancestor_Type, if any, and up to the root type.
(Save_References_In_Aggregate): For a full aggregate of a local
derived tagged type with a global ancestor, set Ancestor_Type to
this ancestor. For a full aggregate of a global derived tagged
type, set Ancestor_Type to the parent type.
* sinfo-utils.ads (Aggregate_Bounds): New function renaming.
(Ancestor_Type): Likewise.
(Set_Aggregate_Bounds): New procedure renaming.
(Set_Ancestor_Type): Likewise.
* sinfo.ads (Ancestor_Type): Document new field.
The path in Expand_N_If_Expression implementing the special optimization for
an unidimensional array type and dependent expressions with static bounds
fails to call Process_Transients_In_Expression on their list of actions.
gcc/ada/
* exp_ch4.adb (Expand_N_If_Expression): Also add missing calls to
Process_Transients_In_Expression on the code path implementing the
special optimization for an unidimensional array type and
dependent expressions with static bounds.
Sem_Util.Enclosing_Declaration can return a non-empty result which is not
a declaration; clients may need to compensate for the case where an
N_Subprogram_Specification node is returned. One such client is the function
Is_Actual_Subp_Of_Inst.
gcc/ada/
* sem_ch8.adb (Is_Actual_Subp_Of_Inst): After calling
Enclosing_Declaration, add a check for the case where one more
Parent call is needed to get the enclosing declaration.
This patch relaxes the requirement that discriminants values should be
known at compile time for a particular optimization to be applied. That
optimization is the one that treats an unconstrained object as constrained
when the object is of a limited type, in order to reduce the size of the
object.
What makes it possible to relax this requirement is that the set of
cases where the optimization is applied was narrowed in a previous
patch.
gcc/ada/
* sem_util.adb (Build_Default_Subtype_OK): Relax
known-at-compile-time requirement.
* sem_util.ads (Build_Default_Subtype_OK): Bring documentation
comment up-to-date.
When pragma Ignore_Pragma(SPARK_Mode) is used, do not issue error
messages related to SPARK legality checking. This facilitates the
instrumentation of code by GNATcoverage.
gcc/ada/
* doc/gnat_rm/implementation_defined_pragmas.rst: Fix doc for
pragma Ignore_Pragma, in the case where it follows another
configuration pragma that it names, which causes the preceding
pragma to be ignored after parsing.
* errout.adb (Should_Ignore_Pragma_SPARK_Mode): New query.
(SPARK_Msg_N): Do nothing if SPARK_Mode is ignored.
(SPARK_Msg_NE): Same.
* gnat-style.texi: Regenerate.
* gnat_rm.texi: Regenerate.
* gnat_ugn.texi: Regenerate.
Move one SPARK legality check from GNAT to GNATprove, and cleanup
other uses of SPARK_Mode for legality checking.
gcc/ada/
* sem_ch4.adb (Analyze_Selected_Component): Check correct mode
variable for GNATprove.
* sem_prag.adb (Refined_State): Call SPARK_Msg_NE which checks
value of SPARK_Mode before issuing a message.
* sem_res.adb (Resolve_Entity_Name): Remove legality check for
SPARK RM 6.1.9(1), moved to GNATprove.
If G1 is a generic package and G1.G2 is a child unit (also a generic package)
then it would be illegal if some third generic unit (declared outside of G1)
takes a formal instance of G1.G2, as in "with package I2 is new G1.G2;".
This construct was incorrectly accepted in some cases.
gcc/ada/
* sem_ch12.adb (Check_Generic_Child_Unit): Introduce a new nested
function Adjusted_Inst_Par_Ekind to cope with cases where either
a- the visibility of a compiler-generated renaming is incorrect;
or b- we are inside of a generic parent unit G1 that has a child
unit G1.G2, so instantiation of G1.G2 is permitted.
