This improves the handling of an explicit by-reference passing mechanism
specified by means of the GNAT pragma Export_Function. This device sort
of circumvents the rules of the language for the by-reference passing
mechanism and it's then up to the programmer to ensure that the actual
parameter is addressable; if it is not, the compiler will generate a
temporary around the call, thus effectively passing the actual by copy.
It turns out that the compiler was too conservative when determining
whether the actual parameter is addressable, in particular if it's a
component of a record type subject to a representation clause.
The change effectively moves this computation from the front-end to the
back-end, which has much more information on the layout and alignment
of types and thus can be less conservative.
2019-09-19 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* exp_ch6.adb (Is_Legal_Copy): Also return false for an aliased
formal and a formal passed by reference in convention Ada. Add
missing guard to the existing test on Is_Valued_Procedure.
From-SVN: r275931
2019-09-19 Richard Biener <rguenther@suse.de>
* tree-parloops.c (parloops_is_slp_reduction): Do not set
LOOP_VINFO_OPERANDS_SWAPPED.
(parloops_is_simple_reduction): Likewise.
* tree-vect-loop.c (_loop_vec_info::_loop_vec_info): Do not
initialize operands_swapped.
(_loop_vec_info::~_loop_vec_info): Do not re-canonicalize stmts.
(vect_is_slp_reduction): Do not swap operands.
* tree-vectorizer.h (_loop_vec_info::operands_swapped): Remove.
(LOOP_VINFO_OPERANDS_SWAPPED): Likewise.
From-SVN: r275928
Extend pass rpad to handle avx512f vcvtusi2ss vcvtusi2ss
538.imagick_r improved by 4% with single copy run on SKYLAKE workstation.
gcc/
* config/i386/i386.md
(*floatuns<SWI48:mode><MODEF:mode>2_avx512):
Add avx_partial_xmm_update.
gcc/testsuie
* gcc.target/i386/pr87007-3.c: New test.
From-SVN: r275926
PR target/91683
* config/riscv/riscv-protos.h (riscv_split_symbol): New bool parameter.
(riscv_move_integer): Likewise.
* config/riscv/riscv.c (riscv_split_integer): Pass FALSE for new
riscv_move_integer arg.
(riscv_legitimize_move): Likewise.
(riscv_force_temporary): New parameter in_splitter. Don't call
force_reg if true.
(riscv_unspec_offset_high): Pass FALSE for new riscv_force_temporary
arg.
(riscv_add_offset): Likewise.
(riscv_split_symbol): New parameter in_splitter. Pass to
riscv_force_temporary.
(riscv_legitimize_address): Pass FALSE for new riscv_split_symbol
arg.
(riscv_move_integer): New parameter in_splitter. New local
can_create_psuedo. Don't call riscv_split_integer or force_reg when
in_splitter TRUE.
(riscv_legitimize_const_move): Pass FALSE for new riscv_move_integer,
riscv_split_symbol, and riscv_force_temporary args.
* config/riscv/riscv.md (low<mode>+1): Pass TRUE for new
riscv_move_integer arg.
(low<mode>+2): Pass TRUE for new riscv_split_symbol arg.
From-SVN: r275925
This CL serves as part of an initial change for enabling gollvm
building on arm64 linux, the rest of the change will be covered by
another one to the gollvm repo.
Incorporate type definition of 'uint128' to 'runtime' and 'syscall'
packges, the change is not specific to arm64 linux but made available
for all platforms.
Verified by building and unit-testing gollvm on linux x86-64 and arm64.
Verified by building and checking gccgo on linux x86-64 and arm64.
Fixesgolang/go#33711
Change-Id: I4720c7d810cfd4ef720962fb4104c5641b2459c0
From-SVN: r275919
We currently use default mid-end expanders for logical DImode operations.
These split operations without first splitting off complex immediates or
memory operands. The resulting expansions are non-optimal and allow for
fewer LDRD/STRD opportunities. So add back explicit expanders which ensure
memory operands and immediates are handled more efficiently.
gcc/
PR target/91738
* config/arm/arm.md (<logical_op>di3): Expand explicitly.
(one_cmpldi2): Likewise.
* config/arm/arm.c (const_ok_for_dimode_op): Return true if one
of the constant parts is simple.
* config/arm/iterators.md (LOGICAL): Add new code iterator.
(logical_op): Add new code attribute.
(logical_OP): Likewise.
* config/arm/predicates.md (arm_anddi_operand): Add predicate.
(arm_iordi_operand): Add predicate.
(arm_xordi_operand): Add predicate.
From-SVN: r275907
On Skylake, we should move integer register to SSE register without
going through memory. This patch restores Skylake SImode hard register
store cost to 6.
gcc/
PR target/90878
* config/i386/x86-tune-costs.h (skylake_cost): Restore SImode
hard register store cost to 6.
gcc/testsuite/
PR target/90878
* gcc.target/i386/pr90878.c: New test.
From-SVN: r275906
On Skylake, SImode store cost isn't less than half cost of 128-bit vector
store. This patch increases Skylake SImode pseudo register store cost to
make it the same as QImode and HImode.
gcc/
PR target/91446
* config/i386/x86-tune-costs.h (skylake_cost): Increase SImode
pseudo register store cost from 3 to 6 to make it the same as
QImode and HImode.
gcc/testsuite/
PR target/91446
* gcc.target/i386/pr91446.c: New test.
From-SVN: r275905
Cleanup the various highpart multiply patterns using iterators.
As a result the signed and unsigned variants and the pre-Armv6
multiply operand constraints are all handled in a single pattern
and simple expander.
gcc/
* config/arm/arm.md (smulsi3_highpart): Use <US> and <SE> iterators.
(smulsi3_highpart_nov6): Remove pattern.
(smulsi3_highpart_v6): Likewise.
(umulsi3_highpart): Likewise.
(umulsi3_highpart_nov6): Likewise.
(umulsi3_highpart_v6): Likewise.
(<US>mull_high): Add new combined multiply pattern.
From-SVN: r275899
assemble_real used GEN_INT to create integers directly from the
longs returned by real_to_target. assemble_integer then went on
to interpret the const_ints as though they had the mode corresponding
to the accompanying size parameter:
imode = mode_for_size (size * BITS_PER_UNIT, mclass, 0).require ();
for (i = 0; i < size; i += subsize)
{
rtx partial = simplify_subreg (omode, x, imode, i);
But in the assemble_real case, X might not be canonical for IMODE.
If the interface to assemble_integer is supposed to allow outputting
(say) the low 4 bytes of a DImode integer, then the simplify_subreg
above is wrong. But if the number of bytes passed to assemble_integer
is supposed to be the number of bytes that the integer actually contains,
assemble_real is wrong.
This patch takes the latter interpretation and makes assemble_real
generate const_ints that are canonical for the number of bytes passed.
The flip_storage_order handling assumes that each long is a full
SImode, which e.g. excludes BITS_PER_UNIT != 8 and float formats
whose memory size is not a multiple of 32 bits (which includes
HFmode at least). The patch therefore leaves that code alone.
If interpreting each integer as SImode is correct, the const_ints
that it generates are also correct.
2019-09-18 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* varasm.c (assemble_real): Generate canonical const_ints.
From-SVN: r275873
2019-09-18 Richard Biener <rguenther@suse.de>
PR lto/91763
* lto-streamer-in.c (input_eh_regions): Move EH init to
lto_materialize_function.
* tree-streamer-in.c (lto_input_ts_function_decl_tree_pointers):
Likewise.
lto/
* lto.c (lto_materialize_function): Initialize EH by looking
at the function personality and flag_exceptions setting.
From-SVN: r275872
CONSTANT lattice values are symbolic constants rather than
compile-time constants, so among other things can be POLY_INT_CSTs.
This patch fixes a case in which we assumed all CONSTANTs were either
ADDR_EXPRs or INTEGER_CSTs.
This is tested by later SVE patches.
2019-09-18 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* tree-ssa-ccp.c (get_value_for_expr): Check whether CONSTANTs
are INTEGER_CSTs.
From-SVN: r275871
Source-level SVE vectors should be gimplified in the same way
as normal fixed-length vectors rather than as VLAs.
This is tested by later SVE patches.
2019-09-18 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* gimplify.c (gimplify_decl_expr): Use poly_int_tree_p instead
of checking specifically for INTEGER_CST.
From-SVN: r275870
This patch makes compute_record_mode handle SVE vectors in the
same way as it would handle fixed-length vectors. There should
be no change in behaviour for other targets.
This is needed for the SVE equivalent of arm_neon.h types like
int8x8x2_t (i.e. a pair of int8x8_ts).
2019-09-18 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* stor-layout.c (compute_record_mode): Operate on poly_uint64
sizes instead of uhwi sizes.
From-SVN: r275869
loc_list_for_tree_1 and add_const_value_attribute currently ICE
on POLY_INTs. loc_list_for_tree_1 can do something sensible but
add_const_value_attribute has to punt, since the constant there
needs to be a link-time rather than load-time or run-time constant.
This is tested by later SVE patches.
2019-09-18 Richard Sandiford <richard.sandiford@arm.com>
gcc/
* dwarf2out.c (loc_list_from_tree_1): Handle POLY_INT_CST.
(add_const_value_attribute): Handle CONST_POLY_INT.
From-SVN: r275868
2019-09-18 Martin Liska <mliska@suse.cz>
* dbgcnt.def (store_merging): New counter.
* gimple-ssa-store-merging.c (imm_store_chain_info::output_merged_stores):
Use it in store merging.
From-SVN: r275867
The recent Copy_Bitfield change caused gnatbind to change elaboration
order, causing different error messages.
2019-09-18 Bob Duff <duff@adacore.com>
gcc/ada/
* exp_ch5.adb (Expand_Assign_Array_Loop_Or_Bitfield): Move call
to RTE_Available later, so it doesn't disturb the elab order.
The RE_Copy_Bitfield entity is defined in package
System.Bitfields which has a dependency on package
System.Bitfield_Utils, which has it its spec:
pragma Elaborate_Body;
The query on RTE_Available forces loading and analyzing
System.Bitfields and all its withed units.
From-SVN: r275866
This eliminates a spurious alignment warning given by the compiler on an
address clause when the No_Exception_Propagation restriction is in
effect and the -gnatw.x switch is used. In this configuration the
address clauses whose expression is itself of the form X'Address would
not be sufficiently analyzed and, therefore, the compiler might give
false positive warnings.
2019-09-18 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* checks.ads (Alignment_Warnings_Record): Add P component.
* checks.adb (Apply_Address_Clause_Check): Be prepared to kill
the warning also if the clause is of the form X'Address.
(Validate_Alignment_Check_Warning): Kill the warning if the
clause is of the form X'Address and the alignment of X is
compatible.
gcc/testsuite/
* gnat.dg/warn31.adb, gnat.dg/warn31.ads: New testcase.
From-SVN: r275865
This patch fixes a compiler abort on a case expression whose
alternatives are universal_real constants, when the case expression is
an operand in a multiplication or division whose other operand is of a
fixed-point type.
2019-09-18 Ed Schonberg <schonberg@adacore.com>
gcc/ada/
* sem_res.adb (Set_Mixed_Node_Expression): If a conditional
expression has universal_real alternaitves and the context is
Universal_Fixed, as when it is an operand in a fixed-point
multiplication or division, resolve the expression with a
visible fixed-point type, which must be unique.
gcc/testsuite/
* gnat.dg/fixedpnt8.adb: New testcase.
From-SVN: r275864
This patch allows the construction of a static subtype for the generated
constrained Secondary_Stack component of a task for which a stack size
is specified, when compiling for a restricted run-time that forbids
dynamic allocation. Needed for LLVM.
2019-09-18 Ed Schonberg <schonberg@adacore.com>
gcc/ada/
* sem_ch3.adb (Constrain_Component_Type): For a discriminated
type, handle the case of a constraint given by a conversion of a
discriminant of the enclosing type. Necessary when compiling a
discriminated task for a restricted run-time, when the generated
Secondary_Stack component may be set by means of an aspect on
the task type.
From-SVN: r275863
This patch fixes a crash on a an aggregate for a discriminated type,
when a component of the aggregate is also a discriminated type
constrained by a discriminant of the enclosing object, and the default
value for the component is a conditional expression that includes
references to that outer discriminant.
2019-09-18 Ed Schonberg <schonberg@adacore.com>
gcc/ada/
* exp_aggr.adb (Expand_Record_Aggregate, Rewrite_Discriminant):
After rewriting a reference to an outer discriminant as a
selected component of the enclosing object, analyze the selected
component to ensure that the entity of the selector name is
properly set. This is necessary when the aggregate appears
within an expression that may have been analyzed already.
gcc/testsuite/
* gnat.dg/discr58.adb: New testcase.
From-SVN: r275862
This patch fixes an issue whereby expansion of post conditions may lead
to spurious ineffective use_clause warnings when a use type clause is
present in a package specification and a use package clause exists in
the package body on the package containing said type.
2019-09-18 Justin Squirek <squirek@adacore.com>
gcc/ada/
* sem_ch8.adb (Use_One_Type): Add guard to prevent warning on a
reundant use package clause where there is no previous
use_clause in the chain.
gcc/testsuite/
* gnat.dg/warn30.adb, gnat.dg/warn30.ads: New testcase.
From-SVN: r275861
This patch fixes an issue whereby assignments from anonymous access
descriminants which are part of stand alone objects of anonymous access
did not have runtime checks generated based on the accessibility level
of the object according to ARM 3.10.2 (12.5/3).
2019-09-18 Justin Squirek <squirek@adacore.com>
gcc/ada/
* exp_ch4.adb (Expand_N_Type_Conversion): Add calculation of an
alternative operand for the purposes of generating accessibility
checks.
gcc/testsuite/
* gnat.dg/access8.adb, gnat.dg/access8_pkg.adb,
gnat.dg/access8_pkg.ads: New testcase.
From-SVN: r275860
This change fixes a long-standing issue in the compiler that is
generally silent but may lead to wrong code generation in specific
circumstances. When an others choice in an array aggregate spans
multiple ranges, the compiler may generate multiple (groups of)
assignments for the ranges.
The problem is that it internally reuses the original expression for all
the ranges, which is problematic if this expression gets rewritten
during the processing of one of the ranges and typically causes a new
temporary to be shared between different ranges.
The solution is to duplicate the original expression for each range.
2019-09-18 Eric Botcazou <ebotcazou@adacore.com>
gcc/ada/
* exp_aggr.adb (Build_Array_Aggr_Code): In STEP 1 (c), duplicate
the expression and reset the Loop_Actions for each loop
generated for an others choice.
gcc/testsuite/
* gnat.dg/aggr28.adb: New testcase.
From-SVN: r275859
This patch fixes an issue whereby subprograms with anonymous access
formals may trigger spurious runtime accessibility errors when such
formals are used as actuals in calls to nested subprograms.
Running these commands:
gnatmake -q pass.adb
gnatmake -q fail.adb
gnatmake -q test_main.adb
gnatmake -q indirect_call_test.adb
pass
fail
test_main
indirect_call_test
On the following sources:
-- pass.adb
procedure Pass is
function A (Param : access Integer) return Boolean is
type Typ is access all Integer;
function A_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- OK
end;
begin
return A_Inner (Param) = Typ (Param);
end;
function B (Param : access Integer) return Boolean;
function B (Param : access Integer) return Boolean is
type Typ is access all Integer;
function B_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- OK
end;
begin
return B_Inner (Param) = Typ (Param);
end;
procedure C (Param : access Integer) is
type Typ is access all Integer;
Var : Typ;
procedure C_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- OK
end;
begin
C_Inner (Param);
end;
procedure D (Param : access Integer);
procedure D (Param : access Integer) is
type Typ is access all Integer;
Var : Typ;
procedure D_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- OK
end;
begin
D_Inner (Param);
end;
protected type E is
function G (Param : access Integer) return Boolean;
procedure I (Param : access Integer);
end;
protected body E is
function F (Param : access Integer) return Boolean is
type Typ is access all Integer;
function F_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- OK
end;
begin
return F_Inner (Param) = Typ (Param);
end;
function G (Param : access Integer) return Boolean is
type Typ is access all Integer;
function G_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- OK
end;
B : Boolean := F (Param); -- OK
begin
return G_Inner (Param) = Typ (Param);
end;
procedure H (Param : access Integer) is
type Typ is access all Integer;
Var : Typ;
procedure H_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- OK
end;
begin
H_Inner (Param);
end;
procedure I (Param : access Integer) is
type Typ is access all Integer;
Var : Typ;
procedure I_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- OK
end;
begin
H (Param); -- OK
I_Inner (Param);
end;
end;
task type J is end;
task body J is
function K (Param : access Integer) return Boolean is
type Typ is access all Integer;
function K_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- OK
end;
begin
return K_Inner (Param) = Typ (Param);
end;
function L (Param : access Integer) return Boolean;
function L (Param : access Integer) return Boolean is
type Typ is access all Integer;
function L_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- OK
end;
begin
return L_Inner (Param) = Typ (Param);
end;
procedure M (Param : access Integer) is
type Typ is access all Integer;
Var : Typ;
procedure M_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- OK
end;
begin
M_Inner (Param);
end;
procedure N (Param : access Integer);
procedure N (Param : access Integer) is
type Typ is access all Integer;
Var : Typ;
procedure N_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- OK
end;
begin
N_Inner (Param);
end;
Var : aliased Integer := 666;
begin
if K (Var'Access) then null; end if; -- OK
if L (Var'Access) then null; end if; -- OK
M (Var'Access); -- OK
N (Var'Access); -- OK
end;
begin
begin
begin
declare
Var : aliased Integer := 666;
T : J;
Prot : E;
begin
if A (Var'Access) then null; end if; -- OK
if B (Var'Access) then null; end if; -- OK
C (Var'Access); -- OK
D (Var'Access); -- OK
if Prot.G (Var'Access) then null; end if; -- OK
Prot.I (Var'Access); -- OK
end;
end;
end;
end;
-- fail.adb
procedure Fail is
Failures : Integer := 0;
type Base_Typ is access all Integer;
function A (Param : access Integer) return Boolean is
subtype Typ is Base_Typ;
function A_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- ERROR
end;
begin
return A_Inner (Param) = Typ (Param);
exception
when others => Failures := Failures + 1;
return False;
end;
function B (Param : access Integer) return Boolean;
function B (Param : access Integer) return Boolean is
subtype Typ is Base_Typ;
function B_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- ERROR
end;
begin
return B_Inner (Param) = Typ (Param);
exception
when others => Failures := Failures + 1;
return False;
end;
procedure C (Param : access Integer) is
subtype Typ is Base_Typ;
Var : Typ;
procedure C_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- ERROR
end;
begin
C_Inner (Param);
exception
when others => Failures := Failures + 1;
end;
procedure D (Param : access Integer);
procedure D (Param : access Integer) is
subtype Typ is Base_Typ;
Var : Typ;
procedure D_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- ERROR
end;
begin
D_Inner (Param);
exception
when others => Failures := Failures + 1;
end;
protected type E is
function G (Param : access Integer) return Boolean;
procedure I (Param : access Integer);
end;
protected body E is
function F (Param : access Integer) return Boolean is
subtype Typ is Base_Typ;
function F_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- ERROR
end;
begin
return F_Inner (Param) = Typ (Param);
exception
when others => Failures := Failures + 1;
return False;
end;
function G (Param : access Integer) return Boolean is
subtype Typ is Base_Typ;
function G_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- ERROR
end;
B : Boolean := F (Param); -- ERROR
begin
return G_Inner (Param) = Typ (Param);
exception
when others => Failures := Failures + 1;
return False;
end;
procedure H (Param : access Integer) is
subtype Typ is Base_Typ;
Var : Typ;
procedure H_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- ERROR
end;
begin
H_Inner (Param);
exception
when others => Failures := Failures + 1;
end;
procedure I (Param : access Integer) is
subtype Typ is Base_Typ;
Var : Typ;
procedure I_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- ERROR
end;
begin
H (Param); -- ERROR
I_Inner (Param);
exception
when others => Failures := Failures + 1;
end;
end;
task type J is end;
task body J is
function K (Param : access Integer) return Boolean is
subtype Typ is Base_Typ;
function K_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- ERROR
end;
begin
return K_Inner (Param) = Typ (Param);
exception
when others => Failures := Failures + 1;
return False;
end;
function L (Param : access Integer) return Boolean;
function L (Param : access Integer) return Boolean is
subtype Typ is Base_Typ;
function L_Inner (Param : access Integer) return Typ is
begin
return Typ (Param); -- ERROR
end;
begin
return L_Inner (Param) = Typ (Param);
exception
when others => Failures := Failures + 1;
return False;
end;
procedure M (Param : access Integer) is
subtype Typ is Base_Typ;
Var : Typ;
procedure M_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- ERROR
end;
begin
M_Inner (Param);
exception
when others => Failures := Failures + 1;
end;
procedure N (Param : access Integer);
procedure N (Param : access Integer) is
subtype Typ is Base_Typ;
Var : Typ;
procedure N_Inner (Param : access Integer) is
begin
Var := Typ (Param); -- ERROR
end;
begin
N_Inner (Param);
exception
when others => Failures := Failures + 1;
end;
Var : aliased Integer := 666;
begin
if K (Var'Access) then null; end if; -- ERROR
if L (Var'Access) then null; end if; -- ERROR
M (Var'Access); -- ERROR
N (Var'Access); -- ERROR
end;
begin
begin
begin
declare
Var : aliased Integer := 666;
T : J;
Prot : E;
begin
if A (Var'Access) then null; end if; -- ERROR
if B (Var'Access) then null; end if; -- ERROR
C (Var'Access); -- ERROR
D (Var'Access); -- ERROR
if Prot.G (Var'Access) then null; end if; -- ERROR
Prot.I (Var'Access); -- ERROR
if Failures /= 12 then
raise Program_Error;
end if;
end;
end;
end;
end;
-- indirect_call_test.adb
with Text_IO;
procedure Indirect_Call_Test is
Tracing_Enabled : constant Boolean := False;
procedure Trace (S : String) is
begin
if Tracing_Enabled then
Text_IO.Put_Line (S);
end if;
end;
package Pkg is
type Root is abstract tagged null record;
function F (X : Root; Param : access Integer)
return Boolean is abstract;
end Pkg;
function F_Wrapper
(X : Pkg.Root; Param : access Integer)
return Boolean
is (Pkg.F (Pkg.Root'Class (X), Param));
-- dispatching call
function A (Param : access Integer) return Boolean is
type Typ is access all Integer;
package Nested is
type Ext is new Pkg.Root with null record;
overriding function F
(X : Ext; Param : access Integer)
return Boolean;
end Nested;
function A_Inner
(Param : access Integer) return Typ is
begin
return Typ (Param); -- OK
end A_Inner;
package body Nested is
function F (X : Ext; Param : access Integer)
return Boolean is
begin
return A_Inner (Param) = null;
end;
end;
Ext_Obj : Nested.Ext;
begin
Trace ("In subtest A");
return F_Wrapper (Pkg.Root (Ext_Obj), Param);
exception
when Program_Error =>
Trace ("Failed");
return True;
end A;
function B (Param : access Integer) return Boolean is
type Typ is access all Integer;
function B_Inner
(Param : access Integer) return Typ is
begin
return Typ (Param); -- OK
end B_Inner;
type Ref is access function
(Param : access Integer) return Typ;
Ptr : Ref := B_Inner'Access;
function Ptr_Caller return Typ is
(Ptr.all (Param)); -- access-to-subp value
begin
Trace ("In subtest B");
return Ptr_Caller = null;
exception
when Program_Error =>
Trace ("*** failed");
return True;
end B;
begin
begin
begin
declare
Var : aliased Integer := 666;
begin
if A (Var'Access) then
null;
end if;
Trace ("Subtest A done");
if B (Var'Access) then
null;
end if;
Trace ("Subtest B done");
end;
end;
end;
end Indirect_Call_Test;
Should produce the following output:
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
Failure
2019-09-18 Justin Squirek <squirek@adacore.com>
gcc/ada/
* einfo.adb, einfo.ads (Minimum_Accessibility): Added new field.
(Set_Minimum_Accessibility): Added to set new field.
(Minimum_Accessibility): Added to fetch new field.
* exp_ch6.adb (Expand_Subprogram_Call): Modify calls to fetch
accessibility levels to the new subprogram Get_Accessibility
which handles cases where minimum accessibility might be needed.
* sem_ch6.adb (Analyze_Subprogram_Body_Helper): Add section to
generate a Minimum_Accessibility object within relevant
subprograms.
* sem_util.adb, sem_util.ads (Dynamic_Accessibility_Level):
Additional documentation added and modify section to use new
function Get_Accessibility.
(Get_Accessibility): Added to centralize processing of
accessibility levels.
From-SVN: r275858
In Ada2012, a discriminant value that governs an active variant part in
an aggregate had to be static. AI12-0086 relaxes this restriction - if
the subtype of the discriminant value is a static subtype all of whose
values select the same variant, then that is good enough.
2019-09-18 Steve Baird <baird@adacore.com>
gcc/ada/
* sem_util.ads (Interval_Lists): A new visible package. This
package is visible because it is also intended for eventual use
in Sem_Eval.Subtypes_Statically_Compatible when that function is
someday upgraded to handle static predicates correctly. This
new package doesn't really need to be visible for now, but it
still seems like a good idea.
* sem_util.adb (Gather_Components): Implement AI12-0086 via the
following strategy. The existing code knows how to take a static
discriminant value and identify the corresponding variant; in
the newly-permitted case of a non-static value of a static
subtype, we arbitrarily select a value of the subtype and find
the corresponding variant using the existing code. Subsequently,
we check that every other value of the discriminant's subtype
corresponds to the same variant; this is done using the newly
introduced Interval_Lists package.
(Interval_Lists): Provide a body for the new package.
gcc/testsuite/
* gnat.dg/ai12_0086_example.adb: New testcase.
From-SVN: r275857
This patch improves the portability of the code generated by the
compiler for access to subprograms. Written by Richard Kenner.
2019-09-18 Javier Miranda <miranda@adacore.com>
gcc/ada/
* exp_ch4.adb (Expand_N_Op_Eq): The frontend assumes that we can
do a bit-for-bit comparison of two access to protected
subprogram pointers. However, there are two reasons why we may
not be able to do that: (1) there may be padding bits for
alignment before the access to subprogram, and (2) the access to
subprogram itself may not be compared bit-for- bit because the
activation record part is undefined: two pointers are equal iff
the subprogram addresses are equal. This patch fixes it by
forcing a field-by-field comparison.
* bindgen.adb (Gen_Adainit): The type No_Param_Proc is defined
in the library as having Favor_Top_Level, but when we create an
object of that type in the binder file we don't have that
pragma, so the types are different. This patch fixes this issue.
* libgnarl/s-interr.adb, libgnarl/s-interr__hwint.adb,
libgnarl/s-interr__sigaction.adb, libgnarl/s-interr__vxworks.adb
(Is_Registered): This routine erroneously assumes that the
access to protected subprogram is two addresses. We need to
create the same record that the compiler makes to ensure that
any padding is the same. Then we have to look at just the first
word of the access to subprogram. This patch fixes this issue.
From-SVN: r275856
This patch substantially improves the efficiency of copying large slices
of bit-packed arrays, by copying 32 bits at a time instead of 1 at a
time.
2019-09-18 Bob Duff <duff@adacore.com>
gcc/ada/
* exp_ch5.adb (Expand_Assign_Array_Loop_Or_Bitfield): The call
to Copy_Bitfield is now enabled.
(Expand_Assign_Array_Bitfield): Multiply 'Length times
'Component_Size "by hand" instead of using 'Size.
From-SVN: r275855
This patch does not modify the functionality of the compiler; it avoids
generating non-required alignment representation clauses for dispatch
tables.
2019-09-18 Javier Miranda <miranda@adacore.com>
gcc/ada/
* exp_disp.adb (Make_DT, Make_Secondary_DT): Remove generation
of alignment representation clause for the following tables:
Predef_Prims, Iface_DT, TSD, ITable, DT.
From-SVN: r275853
In sem_eval.adb, we have an assertion that the type of a "null" literal
is an access type. It turns out that this assertion can fail when
processing an illegal program, e.g. one that contains something like
"Integer'(null)". This leads to differences in the compiler's generated
output for such tests depending on whether assertions are/aren't
enabled; in particular, the "compilation abandoned due to previous
error" message generated in Comperr.Compiler_Abort. In order to avoid
these differences, we change the assertion so that it does not fail if
errors have already been posted on the given node.
2019-09-18 Steve Baird <baird@adacore.com>
gcc/ada/
* sem_eval.adb (Expr_Value): Do not fail "the type of a null
literal must be an access type" assertion if errors have already
been posted on the given node.
From-SVN: r275852
Routine Get_Homonym_Number always returns a positive number. This is
explained in its comment and is evident from its body. No test attached,
because semantics is unaffected.
2019-09-18 Piotr Trojanek <trojanek@adacore.com>
gcc/ada/
* exp_dbug.ads, exp_dbug.adb (Get_Homonym_Number): Refine type
from Nat to Pos.
* sem_util.adb (Add_Homonym_Suffix): Refine type of a local
variable.
From-SVN: r275851
GNATprove was using the qualification of names for entities with local
homonyms in the same scope, requiring the use of a suffix to
differentiate them. This caused problems for correctly identifying
primitive equality operators. This case is now handled like the rest of
entities in GNATprove, by instead updating Unique_Name to append the
suffix on-the-fly where needed.
There is no impact on compilation and hence no test.
2019-09-18 Yannick Moy <moy@adacore.com>
gcc/ada/
* exp_dbug.adb (Append_Homonym_Number): Use new function
Get_Homonym_Number.
(Get_Homonym_Number): New function to return the homonym number.
(Qualify_Entity_Name): Remove special case for GNATprove.
* exp_dbug.ads (Get_Homonym_Number): Make the new function
public for use in GNATprove.
* frontend.adb (Frontend): Do not qualify names in GNATprove
mode.
* sem_util.adb (Unique_Name): Append homonym suffix where needed
for entities which have local homonyms in the same scope.
From-SVN: r275850
Previous change in that procedure to handle overflow issues during
scanning removed the special handling for trailing zeros in the decimal
part. Beside the absence of overflow during scanning the special
handling of these zeros is still necessary.
2019-09-18 Nicolas Roche <roche@adacore.com>
gcc/ada/
* libgnat/s-valrea.adb (Scan_Integral_Digits): New procedure.
(Scan_Decimal_Digits): New procedure.
(As_Digit): New function.
(Scan_Real): Use Scan_Integral_Digits and Scan_Decimal_Digits.
gcc/testsuite/
* gnat.dg/float_value2.adb: New testcase.
From-SVN: r275849
Create a separate routine in Exp_Util for deciding the value of the
Constrained attribute when it is statically known. This routine is used
in Exp_Attr and will be reused in the backend of GNATprove.
There is no impact on compilation and hence no test.
2019-09-18 Claire Dross <dross@adacore.com>
gcc/ada/
* exp_attr.adb (Expand_N_Attribute_Reference): Call routine from
Exp_Util to know the value of the Constrained attribute in the
static case.
* exp_spark.adb (Expand_SPARK_N_Attribute_Reference): Make
implicit dereferences inside the Constrained attribute explicit.
* exp_util.ads, exp_util.adb
(Attribute_Constrained_Static_Value): New routine to compute the
value of a statically known reference to the Constrained
attribute.
From-SVN: r275848
Call to Expect for a dead process results in SIGBUS signal on Linux
systems. Process_Died exception is raised in this case now.
2019-09-18 Vadim Godunko <godunko@adacore.com>
gcc/ada/
* libgnat/g-expect.adb (Expect_Internal): Don't include invalid
file descriptors into the set of file descriptors for Poll.
Raise Process_Died exception when computed set of file
descriptors to monitor is empty.
gcc/testsuite/
* gnat.dg/expect4.adb: New testcase.
From-SVN: r275847
This fixes the wrong errno for rename when the file is not existing on a
dosFs. In the end it makes Ada.Directories.Rename raising the right
exception in the case we are trying to move a file in a non existing
directory.
2019-09-18 Frederic Konrad <konrad@adacore.com>
gcc/ada/
* adaint.c: Include dosFsLib.h and vwModNum.h for VxWorks 6.
(__gnat_rename): Map S_dosFsLib_FILE_NOT_FOUND to ENOENT.
From-SVN: r275846
In some cases where the size computation for an object declaration will
unconditionally overflow, the FE generates code to raise Storage_Error
at the point of the object declaration (and may generate an associated
warning). Don't do this if the object declaration is an ignored (i.e.,
disabled) ghost declaration.
2019-09-18 Steve Baird <baird@adacore.com>
gcc/ada/
* freeze.adb (Freeze_Object_Declaration): Do not call
Check_Large_Modular_Array when the object declaration being
frozen is an ignored ghost entity.
gcc/testsuite/
* gnat.dg/ghost7.adb, gnat.dg/ghost7.ads: New testcase.
From-SVN: r275845
An error message mentions "gnamake", where it meant to mention
"gnatmake".
2019-09-18 Tom Tromey <tromey@adacore.com>
gcc/ada/
* make.adb (Initialize): Fix typo.
From-SVN: r275844
The dwActiveProcessorMask field in a SYSTEM_INFO structure on Windows
should be DWORD_PTR, an integer the size of a pointer.
In s-win32, it is currently declared as DWORD. This happens to work on
32bit hosts and is wrong on 64bit hosts, causing mishaps in accesses to
this component and all the following ones.
The proposed correction adds a definition for DWORD_PTR and uses it for
dwActiveProcessorMask in System.Win32.SYSTEM_INFO.
2019-09-18 Olivier Hainque <hainque@adacore.com>
gcc/ada/
* libgnat/s-win32.ads (DWORD_PTR): New type, pointer size
unsigned int.
(SYSTEM_INFO): Use it for dwActiveProcessorMask.
gcc/testsuite/
* gnat.dg/system_info1.adb: New testcase.
From-SVN: r275843