This is visible if you pass a very small number by means of -gnateinn.
2019-08-14 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* inline.adb (Add_Pending_Instantiation): Fix off-by-one error
in the comparison against the maximum number of instantiations.
From-SVN: r274472
No practical functional changes.
2019-08-14 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* inline.adb (Add_Pending_Instantiation): Use greater-or-equal
in the comparison against the maximum number of instantiations.
From-SVN: r274471
2019-08-14 Ed Schonberg <schonberg@adacore.com>
gcc/ada/
* sem_aux.adb (Next_Rep_Item): If a node in the rep chain
involves a Ghost aspect it may have been replaced by a null
statement; use the original node to find next Rep_Item.
* repinfo.adb (List_Entities): Do not list an Ignored
Ghost_Entity, for which information may have been deleted.
From-SVN: r274470
The compiler now warns if the condition in a pragma Compile_Time_Warning
or Compile_Time_Error does not have a compile-time-known value. The
warning is not given for pragmas in a generic template, but is given for
pragmas in an instance.
The -gnatw_c and -gnatw_C switches turn the warning on and off. The
default is on.
2019-08-14 Bob Duff <duff@adacore.com>
gcc/ada/
* sem_prag.ads, sem_prag.adb
(Process_Compile_Time_Warning_Or_Error): In parameterless
version, improve detection of whether we are in a generic unit
to cover the case of an instance within a generic unit.
(Process_Compile_Time_Warning_Or_Error): Rename the
two-parameter version to be
Validate_Compile_Time_Warning_Or_Error, and do not export it.
Issue a warning if the condition is not known at compile time.
The key point is that the warning must be given only for pragmas
deferred to the back end, because the back end discovers
additional values that are known at compile time. Previous
changes in this ticket have enabled this by deferring to the
back end without checking for special cases such as 'Size.
(Validate_Compile_Time_Warning_Or_Error): Rename to be
Defer_Compile_Time_Warning_Error_To_BE.
* warnsw.ads, warnsw.adb (Warn_On_Unknown_Compile_Time_Warning):
Add new switches -gnatw_c and -gnatw_C to control the above
warning.
* doc/gnat_ugn/building_executable_programs_with_gnat.rst:
Document new switches.
* gnat_ugn.texi: Regenerate.
gcc/testsuite/
* gnat.dg/warn27.adb: New testcase.
From-SVN: r274469
2019-08-14 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* sem_ch12.adb (Might_Inline_Subp): Rework comment and restrict
the shortcut based on Is_Inlined to the back-end inlining case.
From-SVN: r274468
This patch fixes a bug where if a protected function has a pragma
Inline, and has no local variables, and the body consists of a single
extended_return_statement, and the result type is an indefinite
composite subtype, and inlining is enabled, the compiler gives an error,
even though the program is legal.
2019-08-14 Bob Duff <duff@adacore.com>
gcc/ada/
* inline.adb (Check_And_Split_Unconstrained_Function): Ignore
protected functions to get rid of spurious error. The
transformation done by this procedure triggers legality errors
in the generated code in this case.
gcc/testsuite/
* gnat.dg/inline19.adb, gnat.dg/inline19.ads: New testcase.
From-SVN: r274467
2019-08-14 Bob Duff <duff@adacore.com>
gcc/ada/
* sem_prag.adb (Process_Compile_Time_Warning_Or_Error): Defer
processing to the back end in all cases where the pragma's
condition is not known at compile time during the front end
(except in generics), as opposed to detecting 'Size attributes
and the like. This ensures that we take advantage of whatever
can be compile-time known after running the back end, as opposed
to having the front end guess what the back end can do. Remove
a little duplicated code at the call site.
* gnat1drv.adb (Post_Compilation_Validation_Checks): Unlock the
Elists while in Validate_Compile_Time_Warning_Errors, because it
does analysis and name resolution, which sometimes involves
adding Elists.
From-SVN: r274466
This change is aimed at speeding up the inlining across units done by
the Ada compiler when -gnatn is specified and in the presence of units
instantiating a lot of generic packages.
The current implementation is as follows: when a generic package is
being instantiated, the compiler scans its spec for the presence of
subprograms with an aspect/pragma Inline and, upon finding one,
schedules the instantiation of its body. That's not very efficient
because the compiler doesn't know yet if one of those inlined
subprograms will eventually be called from the main unit.
The new implementation arranges for the compiler to instantiate the body
on demand, i.e. when it encounters a call to one of the inlined
subprograms. That's still not optimal because, at this point, the
compiler has not yet computed whether the call itself is reachable from
the main unit (it will do this computation at the very end of the
processing, just before sending the inlined units to the code generator)
but that's nevertheless a net progress.
The patch also enhances the -gnatd.j option to make it output the list
of instances "inlined" this way. The following package is a simple
example:
with Q;
procedure P is
begin
Q.Proc;
end;
package Q is
procedure Proc;
pragma Inline (Proc);
end Q;
with G;
package body Q is
package My_G is new G (1);
procedure Proc is
Val : constant Integer := My_G.Func;
begin
if Val /= 1 then
raise Program_Error;
end if;
end;
end Q;
generic
Value : Integer;
package G is
function Func return Integer;
pragma Inline (Func);
end G;
package body G is
function Func return Integer is
begin
return Value;
end;
end G;
2019-08-14 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* einfo.ads (Is_Called): Document new usage on E_Package
entities.
* einfo.adb (Is_Called): Accept E_Package entities.
(Set_Is_Called): Likewise.
* exp_ch6.adb (Expand_Call_Helper): Move code dealing with
instances for back-end inlining to Add_Inlined_Body.
* inline.ads: Remove with clauses for Alloc and Table.
(Pending_Instantiations): Move to...
* inline.adb: Add with clauses for Alloc, Uintp, Table and
GNAT.HTable.
(Backend_Instances): New variable.
(Pending_Instantiations): ...here.
(Called_Pending_Instantiations): New table.
(Node_Table_Size): New constant.
(Node_Header_Num): New subtype.
(Node_Hash): New function.
(To_Pending_Instantiations): New hash table.
(Add_Inlined_Body): Bail out early for subprograms in the main
unit or subunit. Likewise if the Is_Called flag is set. If the
subprogram is an instance, invoke Add_Inlined_Instance. Call
Set_Is_Called earlier. If the subrogram is within an instance,
invoke Add_Inlined_Instance. Also deal with the case where the
call itself is within an instance.
(Add_Inlined_Instance): New procedure.
(Add_Inlined_Subprogram): Remove conditions always fulfilled.
(Add_Pending_Instantiation): Move the defence against ludicruous
number of instantiations to here. When back-end inlining is
enabled, associate an instantiation with its index in table and
mark a few selected kinds of instantiations as always needed.
(Initialize): Set Backend_Instances to No_Elist.
(Instantiate_Body): New procedure doing the work extracted
from...
(Instantiate_Bodies): ...here. When back-end inlining is
enabled, loop over Called_Pending_Instantiations instead of
Pending_Instantiations.
(Is_Nested): Minor tweak.
(List_Inlining_Info): Also list the contents of
Backend_Instances.
* sem_ch12.adb (Might_Inline_Subp): Return early if Is_Inlined
is set and otherwise set it before returning true.
(Analyze_Package_Instantiation): Remove the defence against
ludicruous number of instantiations. Invoke
Remove_Dead_Instance instead of doing the removal manually if
there is a guaranteed ABE.
From-SVN: r274465
The compiler was creating an abstract function for the equality
operation of a (nonlimited) interface type, and that could result in
errors on generic instantiations that are passed nonabstract types
derived from the interface type along with the derived type's inherited
equality operation (complaining about an abstract subprogram being
passed to a nonabstract formal). The "=" operation of an interface is
supposed to be nonabstract (a direct consequence of the rule in RM
4.5.2(6-7)), so we now create an expression function rather than an
abstract function. The function returns False, but the result is
unimportant since a function of an abstract type can never actually be
invoked (its arguments must generally be class-wide, since there can be
no objects of the type, and calling it will dispatch).
2019-08-14 Gary Dismukes <dismukes@adacore.com>
gcc/ada/
* exp_ch3.adb (Predef_Spec_Or_Body): For an equality operation
of an interface type, create an expression function (that
returns False) rather than declaring an abstract function.
* freeze.adb (Check_Inherited_Conditions): Set Needs_Wrapper to
False unconditionally at the start of the loop creating wrappers
for inherited operations.
gcc/testsuite/
* gnat.dg/equal11.adb, gnat.dg/equal11_interface.ads,
gnat.dg/equal11_record.adb, gnat.dg/equal11_record.ads: New
testcase.
From-SVN: r274464
This patch strengthens the Locked flag, by Asserting that it is False on
operations that might cause reallocation.
No change in behavior (except in the presence of compiler bugs), so no
test.
2019-08-14 Bob Duff <duff@adacore.com>
gcc/ada/
* table.adb: Assert that the table is not locked when increasing
Last, even if it doesn't cause reallocation. In other words,
assert that on operations that MIGHT cause reallocation.
* table.ads: Fix comment accordingly.
From-SVN: r274463
2019-08-14 Bob Duff <duff@adacore.com>
gcc/ada/
* sem_prag.adb (Validate_Compile_Time_Warning_Error): Attach the
warning to the Sloc of the first pragma argument, rather than to
the pragma itself. This is to make pragmas processed after the
back end use the same Sloc as pragmas processed earlier, in the
front end. There's no reason for this discrepancy, and it
hinders further work on this ticket.
From-SVN: r274461
Minor: remove the ??? comment for the Inside_A_Generic flag. The current
name is clear and concise, even though we are noun-ing the adjective
"generic".
2019-08-14 Bob Duff <duff@adacore.com>
gcc/ada/
* sem.ads (Inside_A_Generic): Remove the ??? comment.
From-SVN: r274460
The table has been unused for a while. No functional changes.
2019-08-14 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* inline.ads (Pending_Descriptor): Delete.
* inline.adb (Initialize): Do not initialize it.
* sem_ch12.adb (Delay_Descriptors): Delete.
(Analyze_Package_Instantiation): Call
Set_Delay_Subprogram_Descriptors instead of Delay_Descriptors
throughout.
From-SVN: r274459
This patch fixes a bug in which a spurious error is given on an
aggregate of a type derived from a subtype with a constrained
discriminant.
2019-08-14 Bob Duff <duff@adacore.com>
gcc/ada/
* exp_aggr.adb (Init_Hidden_Discriminants): Avoid processing the
wrong discriminant, which could be of the wrong type.
gcc/testsuite/
* gnat.dg/discr57.adb: New testcase.
From-SVN: r274458
This fixes a long-standing oddity in the procedure analyzing the
instantiation of a generic subprogram, which would set the
Is_Generic_Instance flag on the enclosing package generated for the
instantiation but only to reset it a few lines below. Now this flag is
relied upon by the machinery which computes the set of public entities
to be exposed by a package.
2019-08-14 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* sem_ch12.adb (Analyze_Instance_And_Renamings): Do not reset
the Is_Generic_Instance flag previously set on the package
generated for the instantiation of a generic subprogram.
gcc/testsuite/
* gnat.dg/generic_inst11.adb, gnat.dg/generic_inst11_pkg.adb,
gnat.dg/generic_inst11_pkg.ads: New testcase.
From-SVN: r274457
The defining identifier of a quantified expression may be the freeze
point of its type. If the quantified expression appears in an assertion
that is disavbled, the freeze node for that type may appear in a tree
that will be discarded when the enclosing pragma is elaborated. To
ensure that the freeze node is reachable for subsquent uses we must
generate its freeze node explicitly when the quantified expression is
analyzed.
2019-08-14 Ed Schonberg <schonberg@adacore.com>
gcc/ada/
* exp_ch4.adb (Expand_N_Quantified_Expression): Freeze
explicitly the type of the loop parameter.
gcc/testsuite/
* gnat.dg/assert2.adb, gnat.dg/assert2.ads: New testcase.
From-SVN: r274456
No impact on GCC-based compilation.
2019-08-14 Javier Miranda <miranda@adacore.com>
gcc/ada/
* sem_util.adb (New_Copy_Tree.Copy_Node_With_Replacement):
Update the Chars attribute of identifiers.
From-SVN: r274455
GNATprove needs to be able to call a subset of the ownership legality
rules from marking. This is provided by a new function
Sem_SPARK.Is_Legal.
There is no impact on compilation.
2019-08-14 Yannick Moy <moy@adacore.com>
gcc/ada/
* sem_spark.adb, sem_spark.ads (Is_Legal): New function exposed
for use in GNATprove, to test legality rules not related to
permissions.
(Check_Declaration_Legality): Extract the part of
Check_Declaration that checks rules not related to permissions.
(Check_Declaration): Call the new Check_Declaration_Legality.
(Check_Type_Legality): Rename of Check_Type. Introduce
parameters to force or not checking, and update a flag detecting
illegalities.
(Check_Node): Ignore attribute references in statement position.
From-SVN: r274454
--#! r336866
--#! no-mail
SPARK RM rule 3.10(14) restricts the use of Old and Loop_Entry
attributes on prefixes of an owning or observing type (i.e. a type with
access inside).
There is no impact on compilation.
2019-08-14 Yannick Moy <moy@adacore.com>
gcc/ada/
* sem_spark.adb (Check_Old_Loop_Entry): New procedure to check
correct use of Old and Loop_Entry.
(Check_Node): Check subprogram contracts.
(Check_Pragma): Check Loop_Variant.
(Check_Safe_Pointers): Apply checking to library-level
subprogram declarations as well, in order to check their
contract.
From-SVN: r274453
Like Is_Path_Expression, function Is_Subpath_Expression should consider
the possibility that the subpath is a type conversion or type
qualification over the actual subpath node. This avoids spurious
ownership errors in GNATprove.
There is no impact on compilation.
2019-08-14 Yannick Moy <moy@adacore.com>
gcc/ada/
* sem_spark.adb (Is_Subpath_Expression): Take into account
conversion and qualification.
From-SVN: r274452
This fixes a discrepancy in the mechanism tracking the private and full
views of entities when entering and leaving scopes. This mechanism
records private entities that are dependent on other private entities,
so that the exchange done on entering and leaving scopes can be
propagated.
The propagation is done recursively on entering child units, but it was
not done recursively on leaving them, which would leave the dependency
chains in a uncertain state in this case. That's mostly visible when
inlining across units is enabled for code involving a lot of generic
units.
2019-08-14 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* sem_ch7.adb (Install_Private_Declarations)
<Swap_Private_Dependents>: Do not rely solely on the
Is_Child_Unit flag on the unit to recurse.
(Uninstall_Declarations) <Swap_Private_Dependents>: New
function. Use it to recurse on the private dependent entities
for child units.
gcc/testsuite/
* gnat.dg/inline18.adb, gnat.dg/inline18.ads,
gnat.dg/inline18_gen1-inner_g.ads, gnat.dg/inline18_gen1.adb,
gnat.dg/inline18_gen1.ads, gnat.dg/inline18_gen2.adb,
gnat.dg/inline18_gen2.ads, gnat.dg/inline18_gen3.adb,
gnat.dg/inline18_gen3.ads, gnat.dg/inline18_pkg1.adb,
gnat.dg/inline18_pkg1.ads, gnat.dg/inline18_pkg2-child.ads,
gnat.dg/inline18_pkg2.ads: New testcase.
From-SVN: r274451
2019-08-14 Javier Miranda <miranda@adacore.com>
gcc/ada/
* exp_aggr.adb (Is_CCG_Supported_Aggregate): Return False for
arrays with bounds not known at compile time.
From-SVN: r274450
This patch fixes a compiler abort on a precondition whose condition
includes a quantified expression.
2019-08-14 Ed Schonberg <schonberg@adacore.com>
gcc/ada/
* sem_util.adb (New_Copy_Tree, Visit_Entity): A quantified
expression includes the implicit declaration of the loop
parameter. When a quantified expression is copied during
expansion, for example when building the precondition code from
the generated pragma, a new loop parameter must be created for
the new tree, to prevent duplicate declarations for the same
symbol.
gcc/testsuite/
* gnat.dg/predicate12.adb, gnat.dg/predicate12.ads: New
testcase.
From-SVN: r274449
Checking of SPARK elaboration rules may lead to assertion failures on a
compiler built with assertions. Now fixed.
There is no impact on compilation.
2019-08-14 Yannick Moy <moy@adacore.com>
gcc/ada/
* sem_disp.adb (Check_Dispatching_Operation): Update assertion
for the separate declarations created in GNATprove mode.
* sem_disp.ads (Is_Overriding_Subprogram): Update comment.
* sem_elab.adb (SPARK_Processor): Fix test for checking of
overriding primitives.
From-SVN: r274448
No functional changes.
2019-08-14 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* inline.adb (Add_Inlined_Body): Tweak comments.
(List_Inlining_Info): Also list information about non-main
units.
From-SVN: r274447
The compiler was improperly allowing selection of an object declared
within a task body when the prefix was of the task type, specifically in
the case where the object was the very first declared in the body
(selections of later body declarations were being flagged). The flag
Is_Private_Op was only set at the point of the first "private"
declaration of the type in cases where the first declaration's name
didn't match the selector.
2019-08-14 Gary Dismukes <dismukes@adacore.com>
gcc/ada/
* sem_ch4.adb (Analyze_Selected_Component): In the case where
the prefix is of a concurrent type, and the selected entity
matching the selector is the first private declaration of the
type (such as the first local variable in a task's body), set
Is_Private_Op.
gcc/testsuite/
* gnat.dg/task5.adb: New testcase.
From-SVN: r274446
This patch adds support for floating-point absolute comparisons
FACLT and FACLE (aliased as FACGT and FACGE with swapped operands).
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/iterators.md (SVE_COND_FP_ABS_CMP): New iterator.
* config/aarch64/aarch64-sve.md (*aarch64_pred_fac<cmp_op><mode>):
New pattern.
gcc/testsuite/
* gcc.target/aarch64/sve/vcond_21.c: New test.
* gcc.target/aarch64/sve/vcond_21_run.c: Likewise.
From-SVN: r274443
This patch extends the SVE UNSPEC_SEL patterns so that they can use:
(1) MOV /M of a duplicated integer constant
(2) MOV /M of a duplicated floating-point constant bitcast to an integer,
accepting the same constants as (1)
(3) FMOV /M of a duplicated floating-point constant
(4) MOV /Z of a duplicated integer constant
(5) MOV /Z of a duplicated floating-point constant bitcast to an integer,
accepting the same constants as (4)
(6) MOVPRFXed FMOV /M of a duplicated floating-point constant
We already handled (4) with a special pattern; the rest are new.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
Kugan Vivekanandarajah <kugan.vivekanandarajah@linaro.org>
gcc/
* config/aarch64/aarch64.c (aarch64_bit_representation): New function.
(aarch64_print_vector_float_operand): Also handle 8-bit floats.
(aarch64_print_operand): Add support for %I.
(aarch64_sve_dup_immediate_p): Handle scalars as well as vectors.
Bitcast floating-point constants to the corresponding integer constant.
(aarch64_float_const_representable_p): Handle vectors as well
as scalars.
(aarch64_expand_sve_vcond): Make sure that the operands are valid
for the new vcond_mask_<mode><vpred> expander.
* config/aarch64/predicates.md (aarch64_sve_dup_immediate): Also
test aarch64_float_const_representable_p.
(aarch64_sve_reg_or_dup_imm): New predicate.
* config/aarch64/aarch64-sve.md (vec_extract<vpred><Vel>): Use
gen_vcond_mask_<mode><vpred> instead of
gen_aarch64_sve_dup<mode>_const.
(vcond_mask_<mode><vpred>): Turn into a define_expand that
accepts aarch64_sve_reg_or_dup_imm and aarch64_simd_reg_or_zero
for operands 1 and 2 respectively. Force operand 2 into a
register if operand 1 is a register. Fold old define_insn...
(aarch64_sve_dup<mode>_const): ...and this define_insn...
(*vcond_mask_<mode><vpred>): ...into this new pattern. Handle
floating-point constants that can be moved as integers. Add
alternatives for MOV /M and FMOV /M.
(vcond<mode><v_int_equiv>, vcondu<mode><v_int_equiv>)
(vcond<mode><v_fp_equiv>): Accept nonmemory_operand for operands
1 and 2 respectively.
* config/aarch64/constraints.md (Ufc): Handle vectors as well
as scalars.
(vss): New constraint.
gcc/testsuite/
* gcc.target/aarch64/sve/vcond_18.c: New test.
* gcc.target/aarch64/sve/vcond_18_run.c: Likewise.
* gcc.target/aarch64/sve/vcond_19.c: Likewise.
* gcc.target/aarch64/sve/vcond_19_run.c: Likewise.
* gcc.target/aarch64/sve/vcond_20.c: Likewise.
* gcc.target/aarch64/sve/vcond_20_run.c: Likewise.
Co-Authored-By: Kugan Vivekanandarajah <kuganv@linaro.org>
From-SVN: r274441
This patch uses the immediate forms of FMAXNM and FMINNM for
unconditional arithmetic.
The same rules apply to FMAX and FMIN, but we only generate those
via the ACLE.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/predicates.md (aarch64_sve_float_maxmin_immediate)
(aarch64_sve_float_maxmin_operand): New predicates.
* config/aarch64/constraints.md (vsB): New constraint.
(vsM): Fix typo.
* config/aarch64/iterators.md (sve_pred_fp_rhs2_operand): Use
aarch64_sve_float_maxmin_operand for UNSPEC_COND_FMAXNM and
UNSPEC_COND_FMINNM.
* config/aarch64/aarch64-sve.md (<maxmin_uns><SVE_F:mode>3):
Use aarch64_sve_float_maxmin_operand for operand 2.
(*<SVE_COND_FP_MAXMIN_PUBLIC:optab><SVE_F:mode>3): Likewise.
Add alternatives for the constant forms.
gcc/testsuite/
* gcc.target/aarch64/sve/fmaxnm_1.c: New test.
* gcc.target/aarch64/sve/fminnm_1.c: Likewise.
From-SVN: r274440
This patch adds support for the immediate forms of SVE SMAX, SMIN, UMAX
and UMIN. SMAX and SMIN take the same range as MUL, so the patch
basically just moves and generalises the existing MUL patterns.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/constraints.md (vsb): New constraint.
(vsm): Generalize description.
* config/aarch64/iterators.md (SVE_INT_BINARY_IMM): New code
iterator.
(sve_imm_con): Handle smax, smin, umax and umin.
(sve_imm_prefix): New code attribute.
* config/aarch64/predicates.md (aarch64_sve_vsb_immediate)
(aarch64_sve_vsb_operand): New predicates.
(aarch64_sve_mul_immediate): Rename to...
(aarch64_sve_vsm_immediate): ...this.
(aarch64_sve_mul_operand): Rename to...
(aarch64_sve_vsm_operand): ...this.
* config/aarch64/aarch64-sve.md (mul<mode>3): Generalize to...
(<SVE_INT_BINARY_IMM:optab><SVE_I:mode>3): ...this.
(*mul<mode>3, *post_ra_mul<mode>3): Generalize to...
(*<SVE_INT_BINARY_IMM:optab><SVE_I:mode>3)
(*post_ra_<SVE_INT_BINARY_IMM:optab><SVE_I:mode>3): ...these and
add movprfx support for the immediate alternatives.
(<su><maxmin><mode>3, *<su><maxmin><mode>3): Delete in favor
of the above.
(*<SVE_INT_BINARY_SD:optab><SVE_SDI:mode>3): Fix incorrect predicate
for operand 3.
gcc/testsuite/
* gcc.target/aarch64/sve/smax_1.c: New test.
* gcc.target/aarch64/sve/smin_1.c: Likewise.
* gcc.target/aarch64/sve/umax_1.c: Likewise.
* gcc.target/aarch64/sve/umin_1.c: Likewise.
From-SVN: r274439
This patch adds support for predicated and unpredicated CNOT
(logical NOT on integers). In RTL terms, this is a select between
1 and 0 in which the predicate is fed by a comparison with zero.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/predicates.md (aarch64_simd_imm_one): New predicate.
* config/aarch64/aarch64-sve.md (*cnot<mode>): New pattern.
(*cond_cnot<mode>_2, *cond_cnot<mode>_any): Likewise.
gcc/testsuite/
* gcc.target/aarch64/sve/cnot_1.c: New test.
* gcc.target/aarch64/sve/cond_cnot_1.c: Likewise.
* gcc.target/aarch64/sve/cond_cnot_1_run.c: Likewise.
* gcc.target/aarch64/sve/cond_cnot_2.c: Likewise.
* gcc.target/aarch64/sve/cond_cnot_2_run.c: Likewise.
* gcc.target/aarch64/sve/cond_cnot_3.c: Likewise.
* gcc.target/aarch64/sve/cond_cnot_3_run.c: Likewise.
From-SVN: r274438
This patch adds support for unpredicated SVE CLS and CLZ. A later patch
will add support for predicated unary integer arithmetic.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/iterators.md (SVE_INT_UNARY): Add clrsb and clz.
(optab, sve_int_op): Handle them.
* config/aarch64/aarch64-sve.md: Expand comment.
gcc/testsuite/
* gcc.target/aarch64/vect-clz.c: Force SVE off.
* gcc.target/aarch64/sve/clrsb_1.c: New test.
* gcc.target/aarch64/sve/clrsb_1_run.c: Likewise.
* gcc.target/aarch64/sve/clz_1.c: Likewise.
* gcc.target/aarch64/sve/clz_1_run.c: Likewise.
From-SVN: r274437
This patch handles more predicate constants by using TRN1, TRN2
and EOR. For now, only one operation is allowed before we fall
back to loading from memory or doing an integer move and a compare.
The EOR support includes the important special case of an inverted
predicate.
The real motivating case for this is the ACLE svdupq function,
which allows a repeating 16-bit predicate to be built from
individual scalar booleans. It's not easy to test properly
before that support is merged.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/aarch64.c (aarch64_expand_sve_const_pred_eor)
(aarch64_expand_sve_const_pred_trn): New functions.
(aarch64_expand_sve_const_pred_1): Add a recurse_p parameter and
use the above functions when the parameter is true.
(aarch64_expand_sve_const_pred): Update call accordingly.
* config/aarch64/aarch64-sve.md (*aarch64_sve_<perm_insn><mode>):
Rename to...
(@aarch64_sve_<perm_insn><mode>): ...this.
gcc/testsuite/
* gcc.target/aarch64/sve/peel_ind_1.c: Look for an inverted .B VL1.
* gcc.target/aarch64/sve/peel_ind_2.c: Likewise .S VL7.
From-SVN: r274434
/cp
2019-08-14 Paolo Carlini <paolo.carlini@oracle.com>
* decl.c (grokdeclarator): Check here for typedef a function
definition or a member function definition.
(start_function): Adjust.
(grokmethod): Likewise.
/testsuite
2019-08-14 Paolo Carlini <paolo.carlini@oracle.com>
* g++.dg/parse/typedef9.C: Test locations too.
From-SVN: r274433
/cp
2019-08-14 Paolo Carlini <paolo.carlini@oracle.com>
* decl.c (grokdeclarator): Check here for typedef a function
definition or a member function definition.
(start_function): Adjust.
(grokmethod): Likewise.
/testsuite
2019-08-14 Paolo Carlini <paolo.carlini@oracle.com>
* g++.dg/parse/typedef9.C: Test locations too.
From-SVN: r274432
/cp
2019-08-14 Paolo Carlini <paolo.carlini@oracle.com>
* decl.c (grokdeclarator): Check here for typedef a function
definition or a member function definition.
(start_function): Adjust.
(grokmethod): Likewise.
/testsuite
2019-08-14 Paolo Carlini <paolo.carlini@oracle.com>
* g++.dg/parse/typedef9.C: Test locations too.
From-SVN: r274431
The remaining uses of UNSPEC_MERGE_PTRUE were in integer comparison
patterns. These aren't actually merging operations but zeroing ones,
although there's no practical difference when the predicate is a PTRUE.
All comparisons produced by expand are predicated on a PTRUE,
although we try to pattern-match a compare-and-AND as a predicated
comparison during combine.
Like previous patches, this one rearranges things in a way that works
better with the ACLE, where the initial predicate might or might not
be a PTRUE. The new patterns use UNSPEC_PRED_Z to represent zeroing
predication, with a aarch64_sve_ptrue_flag to record whether the
predicate is all-true (as for UNSPEC_PTEST).
See the block comment in the patch for more details.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/aarch64-protos.h (aarch64_sve_same_pred_for_ptest_p):
Declare.
* config/aarch64/aarch64.c (aarch64_sve_same_pred_for_ptest_p)
(aarch64_sve_emit_int_cmp): New functions.
(aarch64_convert_sve_data_to_pred): Use aarch64_sve_emit_int_cmp.
(aarch64_sve_cmp_operand_p, aarch64_emit_sve_ptrue_op_cc): Delete.
(aarch64_expand_sve_vec_cmp_int): Use aarch64_sve_emit_int_cmp.
* config/aarch64/aarch64.md (UNSPEC_MERGE_PTRUE): Delete.
(UNSPEC_PRED_Z): New unspec.
(set_clobber_cc_nzc): Delete.
* config/aarch64/aarch64-sve.md: Add a block comment about
UNSPEC_PRED_Z.
(*cmp<SVE_INT_CMP:cmp_op><mode>): Rename to...
(@aarch64_pred_cmp<SVE_INT_CMP:cmp_op><mode>): ...this, replacing
the old pattern with that name. Use UNSPEC_PRED_Z instead of
UNSPEC_MERGE_PTRUE.
(*cmp<SVE_INT_CMP:cmp_op><mode>_cc): Use UNSPEC_PRED_Z instead of
UNSPEC_MERGE_PTRUE. Use aarch64_sve_same_pred_for_ptest_p to
check for compatible predicates.
(*cmp<cmp_op><SVE_INT_CMP:mode>_ptest): Likewise.
(*cmp<cmp_op><mode>_and): Match a known-ptrue UNSPEC_PRED_Z instead
of UNSPEC_MERGE_PTRUE. Split into the new form of predicated
comparisons above.
From-SVN: r274429
2019-08-14 Martin Liska <mliska@suse.cz>
* c-c++-common/asan/memcmp-1.c: There's a new function in the
stack-trace on the top. So shift expected output in stack
trace.
From-SVN: r274428
The SVE patterns used an UNSPEC_MERGE_PTRUE unspec to attach a predicate
to an otherwise unpredicated integer arithmetic operation. As its name
suggests, this was designed to be a wrapper used for merging instructions
in which the predicate is known to be a PTRUE.
This unspec dates from the very early days of the port and nothing has
ever taken advantage of the PTRUE guarantee for arithmetic (as opposed
to comparisons). This patch replaces it with the less stringent
guarantee that:
(a) the values of inactive lanes don't matter and
(b) it is valid to make extra lanes active if there's a specific benefit
Doing this makes the patterns suitable for the ACLE _x functions, which
have the above semantics.
See the block comment in the patch for more details.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/aarch64.md (UNSPEC_PRED_X): New unspec.
* config/aarch64/aarch64-sve.md: Add a section describing it.
(@aarch64_pred_mov<mode>, @aarch64_pred_mov<mode>)
(<SVE_INT_UNARY:optab><mode>2, *<SVE_INT_UNARY:optab><mode>2)
(aarch64_<su>abd<mode>_3, mul<SVE_I:mode>3, *mul<SVE_I:mode>3)
(<su>mul<mode>3_highpart, *<su>mul<mode>3_highpart)
(<SVE_INT_BINARY:optab><mode>3, *<SVE_INT_BINARY:optab><mode>3)
(*bic<mode>3, v<ASHIFT:optab><mode>3, *v<ASHIFT:optab><mode>3)
(<su><maxmin><mode>3, *<su><maxmin><mode>3, *madd<SVE_I:mode>)
(*msub<SVE_I:mode>3, *aarch64_sve_rev64<mode>)
(*aarch64_sve_rev32<mode>, *aarch64_sve_rev16vnx16qi): Use
UNSPEC_PRED_X instead of UNSPEC_MERGE_PTRUE.
* config/aarch64/aarch64-sve2.md (<u>avg<mode>3_floor)
(<u>avg<mode>3_ceil, *<sur>h<addsub><mode>): Likewise.
* config/aarch64/aarch64.c (aarch64_split_sve_subreg_move)
(aarch64_evpc_rev_local): Update accordingly.
From-SVN: r274425
The SVE int<->float conversion patterns need to handle various
combinations of modes, making sure that the predicate mode is based
on the widest element size. We did this using separate patterns for
conversions involving:
- HF (converting to/from [HSD]I, predicated based on the int operand)
- SF (converting to/from [SD]I, predicated based on the int operand)
- DF (converting to/from [SD]I, predicated based on the float operand)
This worked, and meant that there were no redundant patterns. However,
the ACLE needs various new predicated patterns too, and having three
versions of each one seemed excessive.
This patch instead splits the patterns into two groups rather than three.
For conversions to integers:
- truncating (predicated based on the source type, DF->SI only)
- non-truncating (predicated based on the destination type)
For conversions from integers:
- extending (predicated based on the destination type, SI->DF only)
- non-extending (predicated based on the source type)
This means that we still don't create pattern names for the invalid
combinations DF<->HI and SF<->HI. The downside is that we need to
use C conditions to exclude the SI<->DF case from the non-truncating/
non-extending patterns. We therefore have two pattern names for SI<->DF,
but genconditions ensures that the invalid one always has the value
CODE_FOR_nothing.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/iterators.md (VNx4SI_ONLY, VNx2DF_ONLY): New mode
iterators.
(SVE_BHSI, SVE_SDI): Tweak comment.
(SVE_HSDI): Likewise. Fix definition.
(SVE_SDF): New mode iterator.
(elem_bits): New mode attribute.
(SVE_COND_FCVT): New int iterator.
* config/aarch64/aarch64-sve.md
(*<SVE_COND_ICVTF:optab>v16hsf<SVE_HSDI:mode>2)
(*<SVE_COND_ICVTF:optab>vnx4sf<SVE_SDI:mode>2)
(*<SVE_COND_ICVTF:optab>vnx2df<SVE_SDI:mode>2): Merge into...
(*aarch64_sve_<SVE_COND_ICVTF:optab>_nontrunc<SVE_F:mode><SVE_HSDI:mode>)
(*aarch64_sve_<SVE_COND_ICVTF:optab>_trunc<VNx2DF_ONLY:mode><VNx4SI_ONLY:mode>):
...these new patterns.
(*<SVE_COND_FCVTI:optab><SVE_HSDI:mode>vnx8hf2)
(*<SVE_COND_FCVTI:optab><SVE_SDI:mode>vnx4sf2)
(aarch64_sve_<SVE_COND_FCVTI:optab><SVE_SDI:mode>vnx2df2):
Merge into...
(*aarch64_sve_<SVE_COND_FCVTI:optab>_nonextend<SVE_HSDI:mode><SVE_F:mode>)
(aarch64_sve_<SVE_COND_FCVTI:optab>_extend<VNx4SI_ONLY:mode><VNx2DF_ONLY:mode>):
...these new patterns.
(vec_unpack<su_optab>_float_<perm_hilo>_vnx4si): Update accordingly.
(*trunc<Vwide><SVE_SDF:mode>2): Replace with...
(*aarch64_sve_<SVE_COND_FCVT:optab>_trunc<SVE_SDF:mode><SVE_HSF:mode>):
...this new pattern.
(aarch64_sve_extend<SVE_HSDF:mode><Vwide>2): Replace with...
(aarch64_sve_<SVE_COND_FCVT:optab>_nontrunc<SVE_HSF:mode><SVE_SDF:mode>):
...this new pattern.
(vec_unpacks_<perm_hilo>_<mode>): Update accordingly.
From-SVN: r274424
This patch changes the SVE FP<->FP and FP<->INT patterns so that
they use unspecs rather than rtx codes, continuing the series
to make the patterns work with predicates that might not be all-true.
2019-08-14 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* config/aarch64/aarch64.md (UNSPEC_FLOAT_CONVERT): Delete.
* config/aarch64/iterators.md (UNSPEC_COND_FCVT, UNSPEC_COND_FCVTZS)
(UNSPEC_COND_FCVTZU, UNSPEC_COND_SCVTF, UNSPEC_COND_UCVTF): New
unspecs.
(optab, su): Handle them.
(SVE_COND_FCVTI, SVE_COND_ICVTF): New int iterators.
* config/aarch64/aarch64-sve.md
(<fix_trunc_optab><SVE_F:mode><v_int_equiv>2): Replace with...
(<SVE_COND_FCVTI:optab><SVE_F:mode><v_int_equiv>2): ...this.
(*<fix_trunc_optab>v16hsf<:SVE_HSDImode>2): Replace with...
(*<SVE_COND_FCVTI:optab>v16hsf<SVE_F:mode>2): ...this.
(*<fix_trunc_optab>vnx4sf<SVE_SDI:mode>2): Replace with...
(*<SVE_COND_FCVTI:optab>vnx4sf<SVE_SDI:mode>2): ...this.
(*<fix_trunc_optab>vnx2df<SVE_SDI:mode>2): Replace with...
(*<SVE_COND_FCVTI:optab>vnx2df<SVE_SDI:mode>2): ...this.
(vec_pack_<su>fix_trunc_vnx2df): Use SVE_COND_FCVTI instead of
FIXUORS.
(<FLOATUORS:optab><v_int_equiv><SVE_F:mode>2): Replace with...
(<SVE_COND_ICVTF:optab><v_int_equiv><SVE_F:mode>2): ...this.
(*<FLOATUORS:optab><SVE_HSDI:mode>vnx8hf2): Replace with...
(*<SVE_COND_ICVTF:optab><SVE_HSDI:mode>vnx8hf2): ...this.
(*<FLOATUORS:optab><SVE_SDI:mode>vnx4sf2): Replace with...
(*<SVE_COND_ICVTF:optab><SVE_SDI:mode>vnx4sf2): ...this.
(aarch64_sve_<FLOATUORS:optab><SVE_SDI:mode>vnx2df2): Replace with...
(aarch64_sve_<SVE_COND_ICVTF:optab><SVE_SDI:mode>vnx2df2): ...this.
(vec_unpack<su_optab>_float_<perm_hilo>_vnx4si): Pass a GP strictness
operand to aarch64_sve_<SVE_COND_ICVTF:optab><SVE_SDI:mode>vnx2df2.
(vec_pack_trunc_<SVE_HSF:Vwide>, *trunc<Vwide><SVE_HSF:mode>2)
(aarch64_sve_extend<mode><Vwide>2): Use UNSPEC_COND_FCVT instead
of UNSPEC_FLOAT_CONVERT.
(vec_unpacks_<perm_hilo>_<mode>): Pass a GP strictness operand to
aarch64_sve_extend<mode><Vwide>2.
From-SVN: r274423
