gcc/ada/
* sem.ads (Node_To_Be_Wrapped): Minor comment fix.
* exp_ch7.adb (Establish_Transient_Scope): Misc cleanups and
comment improvements.
(Set_Node_To_Be_Wrapped): Remove -- not worth putting this code
in a separate procedure, called only once.
* sem_util.adb (Requires_Transient_Scope): Assert that our
parameter has the right Kind. It probably shouldn't be E_Void,
but that is passed in in some cases.
(Ensure_Minimum_Decoration): Move the call later, so we know Typ
is Present, and remove "if Present (Typ)" from this procedure.
* exp_aggr.adb (Convert_To_Assignments): Use membership test,
and avoid the "if False" idiom.
(Expand_Array_Aggregate): Remove a ??? comment.
* sem_ch8.adb (Push_Scope): Take advantage of the full coverage
rules for aggregates.
* sem_res.adb (Resolve_Declare_Expression): Remove test for
Is_Type -- that's all it can be. Use named notation in call to
Establish_Transient_Scope.
* libgnat/a-cdlili.adb (Adjust): Remove redundant code.
(Clear): Remove "pragma Warnings (Off);", which wasn't actually
suppressing any warnings.
gcc/ada/
* exp_ch4.adb (Expand_N_Type_Conversion): If the conversion is
the name of an assignment operation do not apply predicate check
to it prior to the assignment.
gcc/ada/
* doc/gnat_rm/implementation_defined_pragmas.rst: Add a
description of the feature of prefixed-view calls for untagged
types to the section on pragma Extensions_Allowed.
* gnat_rm.texi: Regenerate.
* einfo.ads: Update specification for
Direct_Primitive_Operations to reflect its use for untagged
types when Extensions_Allowed is True.
* gen_il-gen-gen_entities.adb: Allow Direct_Primitive_Operations
as a field of untagged classes of types by removing the "Pre"
test of "Is_Tagged_Type (N)", and making that field generally
available for all types and subtypes by defining it for
Type_Kind and removing its specification for individual classes
of types.
* sem_ch3.adb (Analyze_Full_Type_Declaration): Initialize the
Direct_Primitive_Operations list when not already set for the
new (sub)type and its base type (except when Ekind of the type
is E_Void, which can happen due to errors in cases where
Derived_Type_Declaration is called and perhaps in other
situations).
(Analyze_Subtype_Declaration): Inherit
Direct_Primitive_Operations list from the base type, for record
and private cases.
(Build_Derived_Record_Type): Initialize the
Direct_Primitive_Operations list for derived record and private
types.
(Build_Derived_Type): Initialize the Direct_Primitive_Operations
list for derived types (and also for their associated base types
when needed).
(Process_Full_View): For full types that are untagged record and
private types, copy the primitive operations of the partial view
to the primitives list of the full view.
* sem_ch4.adb (Analyze_Selected_Component): Allow prefixed
notation for subprogram calls in the case of untagged
types (when Extensions_Allowed is True). In the case where
Is_Private_Type (Prefix_Type) is True, call Try_Object_Operation
when a discriminant selector wasn't found. Also call
Try_Object_Operation in other type kind cases (when
Extensions_Allowed is True).
(Try_Object_Operation.Try_One_Prefixed_Interpretation): Prevent
early return in the untagged case (when Extensions_Allowed is
True). Condition main call to Try_Primitive_Operation on the
type having primitives, and after that, if Prim_Result is False,
test for case where the prefix type is a named access type with
primitive operations and in that case call
Try_Primitive_Operation after temporarily resetting Obj_Type to
denote the access type (and restore it to the designated type
after the call)
(Try_Object_Operation.Valid_First_Argument_Of): Do matching type
comparison by testing Base_Type (Obj_Type) against
Base_Type (Typ), rather than against just Typ, to properly
handle cases where the object prefix has a constrained
subtype. (Fixes a bug discovered while working on this
feature.)
* sem_ch6.adb
(New_Overloaded_Entity.Check_For_Primitive_Subprogram): Add a
primitive of an untagged type to the type's list of primitive
operations, for both explicit and implicit (derived, so
Comes_From_Source is False) subprogram declarations. In the case
where the new primitive overrides an inherited subprogram,
locate the primitives Elist that references the overridden
subprogram, and replace that element of the list with the new
subprogram (done by calling the new procedure
Add_Or_Replace_Untagged_Primitive on the result type and each
formal atype).
(Check_For_Primitive_Subprogram.Add_Or_Replace_Untagged_Primitive):
New nested procedure to either add or replace an untagged
primitive subprogram in a given type's list of primitive
operations (replacement happens in case where the new subprogram
overrides a primitive of the type).
* sem_ch7.adb (New_Private_Type): When Extensions_Allowed is
True, initialize the Direct_Primitive_Operations list of a
private type to New_Elmt_List in the case of untagged types.
* sem_ch8.adb (Find_Selected_Component): In the case where the
prefix is an entity name, relax condition that tests
Has_Components so that Analyze_Selected_Component will also be
called when Extensions_Allowed is True and the prefix type is
any type.
gcc/ada/
* sem_ch6.adb (Analyze_Subprogram_Body_Helper): Do not perform
conformance check when the subprogram body has been created for
an expression function that is not a completion of a previous
specification, because the profile of the constructed body is
copied from the expression function itself.
gcc/ada/
* doc/gnat_rm/implementation_of_specific_ada_features.rst: Add a
warning indicating that the details of the default (i.e.,
selected by the compiler) implementation of T'Put_Image for a
nonscalar type T are subject to change.
* gnat_rm.texi: Regenerate.
Several older compilers fail to build modern GCC because of missing
or incomplete C++11 support.
Signed-off-by: Iain Sandoe <iain@sandoe.co.uk>
PR bootstrap/100246 - [11/12 Regression] GCC will not bootstrap with clang 3.4/3.5 [xcode 5/6, Darwin 12/13]
PR bootstrap/100246
gcc/ChangeLog:
* config/i386/i386.h (struct stringop_algs): Define a CTOR for
this type.
This adds named expanders for vec_fmaddsub<mode>4 and
vec_fmsubadd<mode>4 which map to x86 vfmaddsubXXXp{ds} and
vfmsubaddXXXp{ds} instructions. This complements the previous
addition of ADDSUB support.
x86 lacks SUBADD and the negate variants of FMA with mixed
plus minus so I did not add optabs or patterns for those but
it would not be difficult if there's a target that has them.
2021-07-05 Richard Biener <rguenther@suse.de>
* doc/md.texi (vec_fmaddsub<mode>4): Document.
(vec_fmsubadd<mode>4): Likewise.
* optabs.def (vec_fmaddsub$a4): Add.
(vec_fmsubadd$a4): Likewise.
* internal-fn.def (IFN_VEC_FMADDSUB): Add.
(IFN_VEC_FMSUBADD): Likewise.
* tree-vect-slp-patterns.c (addsub_pattern::recognize):
Refactor to handle IFN_VEC_FMADDSUB and IFN_VEC_FMSUBADD.
(addsub_pattern::build): Likewise.
* tree-vect-slp.c (vect_optimize_slp): CFN_VEC_FMADDSUB
and CFN_VEC_FMSUBADD are not transparent for permutes.
* config/i386/sse.md (vec_fmaddsub<mode>4): New expander.
(vec_fmsubadd<mode>4): Likewise.
* gcc.target/i386/vect-fmaddsubXXXpd.c: New testcase.
* gcc.target/i386/vect-fmaddsubXXXps.c: Likewise.
* gcc.target/i386/vect-fmsubaddXXXpd.c: Likewise.
* gcc.target/i386/vect-fmsubaddXXXps.c: Likewise.
This adds the -fmove-loop-stores option, mainly as a way to disable
the store-motion part of GIMPLE invariant motion (-ftree-loop-im)
which is enabled by default. It might be sensible to turn off
-fmove-loop-stores at -O1 since it can result in compile-time
as well as memory usage issues but this patch tries to preserve
existing behavior besides introducing the new option with the
exception of -Og where I've disabled it.
Controlling store-motion has been made easy by earlier refactoring
for the invariant motion only use after loop interchange.
2021-07-02 Richard Biener <rguenther@suse.de>
* doc/invoke.texi (fmove-loop-stores): Document.
* common.opt (fmove-loop-stores): New option.
* opts.c (default_options_table): Enable -fmove-loop-stores
at -O1 but not -Og.
* tree-ssa-loop-im.c (pass_lim::execute): Pass
flag_move_loop_stores instead of true to
loop_invariant_motion_in_fun.
So the problem here is that replace_phi_edge_with_variable
will copy range information to a already (not newly) defined
ssa name. This causes wrong code later on.
This fixes the problem by require the new ssa name to
be defined in the same bb as the conditional that is
about to be deleted.
OK? Bootstrapped and tested on x86_64-linux-gnu with no regressions.
Changes from v1:
* this is a simplification of what was trying to be done before.
gcc/ChangeLog:
PR tree-optimization/101256
* dbgcnt.def (phiopt_edge_range): New counter.
* tree-ssa-phiopt.c (replace_phi_edge_with_variable):
Check to make sure the new name is defined in the same
bb as the conditional before duplicating range info.
Also add debug counter.
gcc/testsuite/ChangeLog:
PR tree-optimization/101256
* g++.dg/torture/pr101256.C: New test.
This PR came about because index expressions of the form k+k in
implied DO loops in I/O statements were considered for replacement
by array slices.
Fixed by only doing the transformation if the expression is of the
type expr OP contastant.
gcc/fortran/ChangeLog:
PR fortran/100227
* frontend-passes.c (traverse_io_block): Adjust test for
when a variable is eligible for the transformation to
array slice.
gcc/testsuite/ChangeLog:
PR fortran/100227
* gfortran.dg/implied_do_io_7.f90: New test.
With Hongtao's SPEC2017 performance evaluation result here:
https://gcc.gnu.org/pipermail/gcc-patches/2021-June/573986.html
this new parameter ira-consider-dup-in-all-alts has negative
effects on i386, this patch is to disable it explicitly on
i386.
Bootstrapped & regtested on x86_64-redhat-linux.
gcc/ChangeLog:
PR rtl-optimization/100328
* config/i386/i386-options.c (ix86_option_override_internal):
Set param_ira_consider_dup_in_all_alts to 0.
This patch is to make IRA consider matching constraint heavily,
even if there is at least one other alternative with non-NO_REG
register class constraint, it will continue and check matching
constraint in all available alternatives and respect the
matching constraint with preferred register class.
One typical case is destructive FMA style instruction on rs6000.
Without this patch, for the mentioned FMA instruction, IRA won't
respect the matching constraint on VSX_REG since there are some
alternative with FLOAT_REG which doesn't have matching constraint.
It can cause extra register copies since later reload has to make
code to respect the constraint. This patch make IRA respect this
matching constraint on VSX_REG which is the preferred regclass,
but it excludes some cases where for one preferred register class
there can be two or more alternatives, one of them has the
matching constraint, while another doesn't have. It also
considers the possibility of free register copy.
With option Ofast unroll, this patch can help to improve SPEC2017
bmk 508.namd_r +2.42% and 519.lbm_r +2.43% on Power8 while
508.namd_r +3.02% and 519.lbm_r +3.85% on Power9 without any
remarkable degradations. It also improved something on SVE as
testcase changes showed and Richard's confirmation.
Bootstrapped & regtested on powerpc64le-linux-gnu P9,
x86_64-redhat-linux and aarch64-linux-gnu.
gcc/ChangeLog:
PR rtl-optimization/100328
* doc/invoke.texi (ira-consider-dup-in-all-alts): Document new
parameter.
* ira.c (ira_get_dup_out_num): Adjust as parameter
param_ira_consider_dup_in_all_alts.
* params.opt (ira-consider-dup-in-all-alts): New.
* ira-conflicts.c (process_regs_for_copy): Add one parameter
single_input_op_has_cstr_p.
(get_freq_for_shuffle_copy): New function.
(add_insn_allocno_copies): Adjust as single_input_op_has_cstr_p.
* ira-int.h (ira_get_dup_out_num): Add one bool parameter.
gcc/testsuite/ChangeLog:
PR rtl-optimization/100328
* gcc.target/aarch64/sve/acle/asm/div_f16.c: Remove one xfail.
* gcc.target/aarch64/sve/acle/asm/div_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/div_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/divr_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/divr_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/divr_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mad_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mad_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mad_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mla_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mla_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mla_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mls_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mls_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mls_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/msb_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/msb_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/msb_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mulx_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mulx_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/mulx_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmad_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmad_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmad_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmla_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmla_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmla_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmls_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmls_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmls_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmsb_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmsb_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/nmsb_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/sub_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/sub_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/sub_f64.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/subr_f16.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/subr_f32.c: Likewise.
* gcc.target/aarch64/sve/acle/asm/subr_f64.c: Likewise.
DWARF DIEs do not contain DW_TAG_restrict_type when DWARF version is 2. CTF/BTF
generation feeds off DWARF DIEs, and as such, CTF records of kind
CTF_K_RESTRICT cease to be generated when DWARF version is 2.
This patch fixes the failure of these testcases on Darwin by using an explicit
-gdwarf-4 in the dg-options. This keeps the CTF record generation for restrict
type qualifier tested.
PR debug/101283 - Several tests fail on Darwin with -gctf/gbtf
2021-07-05 Indu Bhagat <indu.bhagat@oracle.com>
gcc/testsuite/ChangeLog:
PR debug/101283
* gcc.dg/debug/btf/btf-cvr-quals-1.c: Use -gdwarf-4 on Darwin targets.
* gcc.dg/debug/ctf/ctf-cvr-quals-1.c: Likewise.
To improve phiopt and be able to remove abs_replacement, this ports
most of "A CMP 0 ? A : -A" from fold_cond_expr_with_comparison to
match.pd. There is a few extra changes that are needed to remove
the "A CMP 0 ? A : -A" part from fold_cond_expr_with_comparison:
* Need to handle (A - B) case
* Need to handle UN* comparisons.
I will handle those in a different patch.
Note phi-opt-15.c test needed to be updated as we get ABSU now
instead of not getting ABS. When ABSU was added phiopt was not
updated even to use ABSU instead of not creating ABS.
OK? Bootstrapped and tested on x86_64-linux-gnu with no regressions.
gcc/ChangeLog:
PR tree-optimization/101039
* match.pd (A CMP 0 ? A : -A): New patterns.
* tree-ssa-phiopt.c (abs_replacement): Delete function.
(tree_ssa_phiopt_worker): Don't call abs_replacement.
Update comment about abs_replacement.
gcc/testsuite/ChangeLog:
PR tree-optimization/101039
* gcc.dg/tree-ssa/phi-opt-15.c: Update test to expect
ABSU and still not expect ABS_EXPR.
* gcc.dg/tree-ssa/phi-opt-23.c: New test.
* gcc.dg/tree-ssa/phi-opt-24.c: New test.
Since match and simplify does not have all of the inverted
comparison patterns, it make sense to just have
phi-opt try to do the inversion and try match and simplify again.
OK? Bootstrapped and tested on x86_64-linux-gnu.
Thanks,
Andrew Pinski
gcc/ChangeLog:
* tree-ssa-phiopt.c (gimple_simplify_phiopt):
If "A ? B : C" fails to simplify, try "(!A) ? C : B".
To move a few things more to match-and-simplify from phiopt,
we need to allow match_simplify_replacement to run in early
phiopt. To do this we add a replacement for gimple_simplify
that is explictly for phiopt.
OK? Bootstrapped and tested on x86_64-linux-gnu with no
regressions.
gcc/ChangeLog:
* tree-ssa-phiopt.c (match_simplify_replacement):
Add early_p argument. Call gimple_simplify_phiopt
instead of gimple_simplify.
(tree_ssa_phiopt_worker): Update call to
match_simplify_replacement and allow unconditionally.
(phiopt_early_allow): New function.
(gimple_simplify_phiopt): New function.
HONOR_SIGNED_ZEROS, HONOR_SIGN_DEPENDENT_ROUNDING, and HONOR_SNANS all
have an overload for taking a tree type now, so we should do that instead.
OK? Bootstrapped and tested on x86_64-linux-gnu.
gcc/ChangeLog:
PR middle-end/101237
* fold-const.c (negate_expr_p): Remove call to element_mode
and TREE_MODE/TREE_TYPE when calling HONOR_SIGNED_ZEROS,
HONOR_SIGN_DEPENDENT_ROUNDING, and HONOR_SNANS.
(fold_negate_expr_1): Likewise.
(const_unop): Likewise.
(fold_cond_expr_with_comparison): Likewise.
(fold_binary_loc): Likewise.
(fold_ternary_loc): Likewise.
(tree_call_nonnegative_warnv_p): Likewise.
* match.pd (-(A + B) -> (-B) - A): Likewise.
In order to enable DWARF versions > 2 we need a sufficiently modern
version of dsymutil (in addition to the assembler / linker). This
allows the user to configure a different path from the installed one.
In addition, there are several sources of dsymutil so we differentiate
these in order to be get accurate version information.
Signed-off-by: Iain Sandoe <iain@sandoe.co.uk>
gcc/ChangeLog:
* configure.ac: Handle --with-dsymutil in the same way as we
do for the assembler and linker. (DEFAULT_DSYMUTIL): New.
Extract the type and version for the dsymutil configured or
found by the default searches.
* config.in: Regenerated.
* configure: Regenerated.
* collect2.c (do_dsymutil): Handle locating dsymutil in the
same way as for the assembler and linker.
* config/darwin.h (DSYMUTIL): Delete.
* gcc.c: Report a configured dsymutil correctly.
* exec-tool.in: Allow for dsymutil.
ChangeLog:
* Makefile.def: Add dsymutil defs.
* Makefile.in: Regenerated.
* Makefile.tpl: Add dsymutil to flags.
* configure: Regenerated.
* configure.ac: Add dsymutil to target and build recipes.
gcc/ada/
* sem_prag.adb (Analyze_Depends_In_Decl_Part): Reject overlays
in Depends and Refined_Depends contracts.
(Analyze_Global_In_Decl_Part): Likewise for Global and
Refined_Global.
(Analyze_Initializes_In_Decl_Part): Likewise for Initializes
(when appearing both as a single item and as a initialization
clause).
* sem_util.ads (Ultimate_Overlaid_Entity): New routine.
* sem_util.adb (Report_Unused_Body_States): Ignore overlays.
(Ultimate_Overlaid_Entity): New routine.
gcc/ada/
* libgnat/a-cfdlli.ads, libgnat/a-cfdlli.adb
libgnat/a-cfinve.ads, libgnat/a-cfinve.adb,
libgnat/a-cofove.ads, libgnat/a-cofove.adb,
libgnat/a-coboho.ads, libgnat/a-coboho.adb (Constant_Reference):
Get a read-only access to an element of the container.
(At_End): Ghost functions used to express pledges in the
postcondition of Reference.
(Reference): Get a read-write access to an element of the
container.
* libgnat/a-cfhama.ads, libgnat/a-cfhama.adb,
libgnat/a-cforma.ads, libgnat/a-cforma.adb: The full view of the
Map type is no longer a tagged type, but a wrapper over this
tagged type. This is to avoid issues with dispatching result in
At_End functions.
(Constant_Reference): Get a read-only access to an element of
the container.
(At_End): Ghost functions used to express pledges in the
postcondition of Reference.
(Reference): Get a read-write access to an element of the
container.
* libgnat/a-cfhase.ads, libgnat/a-cfhase.adb,
libgnat/a-cforse.ads, libgnat/a-cforse.adb: The full view of the
Map type is no longer a tagged type, but a wrapper over this
tagged type.
(Constant_Reference): Get a read-only access to an element of
the container.
* libgnat/a-cofuse.ads, libgnat/a-cofuve.ads (Copy_Element):
Expression function used to cause SPARK to make sure
Element_Type is copiable.
* libgnat/a-cofuma.ads (Copy_Key): Expression function used to
cause SPARK to make sure Key_Type is copiable.
(Copy_Element): Expression function used to cause SPARK to make
sure Element_Type is copiable.
gcc/ada/
* exp_ch3.adb (Build_Record_Init_Proc.Build_Assignment): When
building the assignment statement corresponding to the default
expression for a component, we make a copy of the expression.
When making that copy (and if we have seen a component that
requires late initialization), pass a Map parameter into the
call to New_Copy_Tree to redirect references to the type to
instead refer to the _Init formal parameter of the init proc.
This includes hoisting the declaration of Has_Late_Init_Comp out
one level so that it becomes available to Build_Assignment.
(Find_Current_Instance): Return True for other kinds of current
instance references, instead of just access-valued attribute
references such as T'Access.
* sem_util.adb (Is_Aliased_View): Return True for the _Init
formal parameter of an init procedure. The changes in
exp_ch3.adb can have the effect of replacing a "T'Access"
attribute reference in an init procedure with an "_Init'Access"
attribute reference. We want such an attribute reference to be
legal. However, we do not simply mark the formal parameter as
being aliased because that might impact callers.
(Is_Object_Image): Return True if Is_Current_Instance returns
True for the prefix of an Image (or related attribute) attribute
reference.
gcc/ada/
* sem_util.adb (Has_Compatible_Alignment_Internal): If the
prefix of the Address expression is an entire object with a
known alignment, then skip checks related to its size.
gcc/ada/
* exp_put_image.adb:
(Enable_Put_Image, Preload_Root_Buffer_Type): Revert to querying
the -gnatd_z switch, as opposed to testing whether Ada_Version >= Ada_2022.
gcc/ada/
* checks.adb (Accessibility_Checks_Suppressed): Add check
against restriction No_Dynamic_Accessibility_Checks.
(Apply_Accessibility_Check): Add assertion to check restriction
No_Dynamic_Accessibility_Checks is not active.
* debug.adb: Add documentation for new debugging switch to
control which accessibility model gets employed under
restriction No_Dynamic_Accessibility_Checks.
* exp_attr.adb (Expand_N_Attribute_Reference): Disable dynamic
accessibility check generation when
No_Dynamic_Accessibility_Checks is active.
* exp_ch4.adb (Apply_Accessibility_Check): Skip check generation
when restriction No_Dynamic_Accessibility_Checks is active.
(Expand_N_Allocator): Disable dynamic accessibility checks when
No_Dynamic_Accessibility_Checks is active.
(Expand_N_In): Disable dynamic accessibility checks when
No_Dynamic_Accessibility_Checks is active.
(Expand_N_Type_Conversion): Disable dynamic accessibility checks
when No_Dynamic_Accessibility_Checks is active.
* exp_ch5.adb (Expand_N_Assignment_Statement): Disable
alternative accessibility model calculations when computing a
dynamic level for a SAOAAT.
* exp_ch6.adb (Add_Call_By_Copy_Code): Disable dynamic
accessibility check generation when
No_Dynamic_Accessibility_Checks is active.
(Expand_Branch): Disable alternative accessibility model
calculations.
(Expand_Call_Helper): Disable alternative accessibility model
calculations.
* restrict.adb, restrict.ads: Add new restriction
No_Dynamic_Accessibility_Checks.
(No_Dynamic_Accessibility_Checks_Enabled): Created to test when
experimental features (which are generally incompatible with
standard Ada) can be enabled.
* sem_attr.adb (Safe_Value_Conversions): Add handling of new
accessibility model under the restriction
No_Dynamic_Accessibility_Checks.
* sem_prag.adb (Process_Restrictions_Or_Restriction_Warnings):
Disallow new restriction No_Dynamic_Accessibility_Checks from
being exclusively specified within a body or subunit without
being present in a specification.
* sem_res.adb (Check_Fully_Declared_Prefix): Minor comment
fixup.
(Valid_Conversion): Omit implicit conversion checks on anonymous
access types and perform static checking instead when
No_Dynamic_Accessibility_Checks is active.
* sem_util.adb, sem_util.ads (Accessibility_Level): Add special
handling of anonymous access objects, formal parameters,
anonymous access components, and function return objects.
(Deepest_Type_Access_Level): When
No_Dynamic_Accessibility_Checks is active employ an alternative
model. Add paramter Allow_Alt_Model to override the new behavior
in certain cases.
(Type_Access_Level): When No_Dynamic_Accessibility_Checks is
active employ an alternative model. Add parameter
Allow_Alt_Model to override the new behavior in certain cases.
(Typ_Access_Level): Created within Accessibility_Level for
convenience.
* libgnat/s-rident.ads, snames.ads-tmpl: Add handing for
No_Dynamic_Accessibility_Checks.
gcc/ada/
* aspects.ads: Add GNAT_Annotate aspect.
* gnat1drv.adb (Adjust_Global_Switches): Stop defining
Name_Gnat_Annotate as an alias of Name_Annotate.
* snames.ads-tmpl: Define Gnat_Annotate.
* par-prag.adb, sem_prag.ads: Add Pragma_Gnat_Annotate to list
of pragmas.
* lib-writ.adb, sem_ch13.adb, sem_prag.adb: Handle Gnat_Annotate
like Aspect_Annotate.
gcc/ada/
* sem_util.adb (Has_Compatible_Alignment_Internal): Fix
indentation of ELSIF comments; remove explicit calls to
UI_To_Int; remove extra parens around the MOD operand.
gcc/ada/
* sem_aggr.adb (Resolve_Record_Aggregate, Step_5): Do not check
for the need to use an extension aggregate for a given component
when within an instance and the type of the component hss a
private ancestor: the instantiation is legal if the generic
compiles, and spurious errors may be generated otherwise.
gcc/ada/
* errout.adb (Output_JSON_Message): Recursively call
Output_JSON_Message for continuation messages instead of
appending their content to the initial message.