OpenMP: Allocate directive for static vars, clean up

For the 'allocate' directive, remove the sorry for static variables and
just keep using normal memory, but honor the requested alignment and set
a DECL_ATTRIBUTE in case a target may want to make use of this later on.
The documentation is updated accordingly.

The C diagnostic to check for predefined allocators (req. for static vars)
failed to accept GCC's ompx_gnu_... allocator, now fixed. (Fortran was
already okay; but both now use new common #defined value for checking.)
And while Fortran common block variables are still rejected, the check
has been improved as before the sorry diagnostic did not work for
common blocks in modules.

Finally, for 'allocate' clause on the target/task/taskloop directives,
there is now a warning for omp_thread_mem_alloc (i.e. predefined allocator
with access = thread), which is undefined behavior according to the
OpenMP specification.

And, last, testing showed that var decl + static_assert sets TREE_USED
but does not produce a statement list in C, which did run into an assert
in gimplify. This special case is now also handled.

gcc/c/ChangeLog:

	* c-parser.cc (c_parser_omp_allocate): Set alignment for alignof;
	accept static variables and fix predef allocator check.

gcc/fortran/ChangeLog:

	* openmp.cc (is_predefined_allocator): Use gomp-constants.h consts.
	* trans-common.cc (translate_common): Reject OpenMP allocate directives.
	* trans-decl.cc (gfc_finish_var_decl): Handle allocate directive
	for static variables.
	(gfc_trans_deferred_vars): Update for the latter.

gcc/ChangeLog:

	* gimplify.cc (gimplify_bind_expr): Fix corner case for OpenMP
	allocate directive.
	(gimplify_scan_omp_clauses): Warn if omp_thread_mem_alloc is used
	as allocator with the target/task/taskloop directive.

include/ChangeLog:

	* gomp-constants.h (GOMP_OMP_PREDEF_ALLOC_MAX,
	GOMP_OMPX_PREDEF_ALLOC_MIN, GOMP_OMPX_PREDEF_ALLOC_MAX,
	GOMP_OMP_PREDEF_ALLOC_THREADS): New defines.

libgomp/ChangeLog:

	* allocator.c: Add static asserts for news
	GOMP_OMP{,X}_PREDEF_ALLOC_{MIN,MAX} range values.
	* libgomp.texi (OpenMP Impl. Status): Allocate directive for
	static vars is now supported. Refer to PR for allocate clause.
	(Memory allocation): Update for static vars; minor word tweaking.

gcc/testsuite/ChangeLog:

	* c-c++-common/gomp/allocate-9.c: Update for removed sorry.
	* gfortran.dg/gomp/allocate-15.f90: Likewise.
	* gfortran.dg/gomp/allocate-pinned-1.f90: Likewise.
	* gfortran.dg/gomp/allocate-4.f90: Likewise; add dg-error for
	previously missing diagnostic.
	* c-c++-common/gomp/allocate-18.c: New test.
	* c-c++-common/gomp/allocate-19.c: New test.
	* gfortran.dg/gomp/allocate-clause.f90: New test.
	* gfortran.dg/gomp/allocate-static-2.f90: New test.
	* gfortran.dg/gomp/allocate-static.f90: New test.
This commit is contained in:
Tobias Burnus 2024-10-07 10:45:14 +02:00
parent b137e4bbcc
commit a8caeaacf4
17 changed files with 472 additions and 117 deletions

View File

@ -20967,20 +20967,22 @@ c_parser_omp_allocate (c_parser *parser)
if (TREE_STATIC (var))
{
if (allocator == NULL_TREE && allocator_loc == UNKNOWN_LOCATION)
error_at (loc, "%<allocator%> clause required for "
{
error_at (loc,
"%<allocator%> clause required for "
"static variable %qD", var);
continue;
}
else if (allocator
&& (wi::to_widest (allocator) < 1
|| wi::to_widest (allocator) > 8))
/* 8 = largest predefined memory allocator. */
|| wi::to_widest (allocator) > GOMP_OMP_PREDEF_ALLOC_MAX)
&& (wi::to_widest (allocator) < GOMP_OMPX_PREDEF_ALLOC_MIN
|| wi::to_widest (allocator) > GOMP_OMPX_PREDEF_ALLOC_MAX))
{
error_at (allocator_loc,
"%<allocator%> clause requires a predefined allocator as "
"%qD is static", var);
else
sorry_at (OMP_CLAUSE_LOCATION (nl),
"%<#pragma omp allocate%> for static variables like "
"%qD not yet supported", var);
continue;
}
}
if (allocator)
{
@ -20988,6 +20990,9 @@ c_parser_omp_allocate (c_parser *parser)
= {EXPR_LOC_OR_LOC (allocator, OMP_CLAUSE_LOCATION (nl)), var};
walk_tree (&allocator, c_check_omp_allocate_allocator_r, &data, NULL);
}
if (alignment)
SET_DECL_ALIGN (var, BITS_PER_UNIT * MAX (tree_to_uhwi (alignment),
DECL_ALIGN_UNIT (var)));
DECL_ATTRIBUTES (var) = tree_cons (get_identifier ("omp allocate"),
build_tree_list (allocator, alignment),
DECL_ATTRIBUTES (var));

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@ -7857,9 +7857,12 @@ is_predefined_allocator (gfc_expr *expr)
&& expr->ts.kind == gfc_c_intptr_kind
&& expr->expr_type == EXPR_CONSTANT
&& ((mpz_sgn (expr->value.integer) > 0
&& mpz_cmp_si (expr->value.integer, 8) <= 0)
|| (mpz_cmp_si (expr->value.integer, 200) >= 0
&& mpz_cmp_si (expr->value.integer, 200) <= 0)));
&& mpz_cmp_si (expr->value.integer,
GOMP_OMP_PREDEF_ALLOC_MAX) <= 0)
|| (mpz_cmp_si (expr->value.integer,
GOMP_OMPX_PREDEF_ALLOC_MIN) >= 0
&& mpz_cmp_si (expr->value.integer,
GOMP_OMPX_PREDEF_ALLOC_MAX) <= 0)));
}
/* Resolve declarative ALLOCATE statement. Note: Common block vars only appear

View File

@ -1219,6 +1219,10 @@ translate_common (gfc_common_head *common, gfc_symbol *var_list)
align = 1;
saw_equiv = false;
if (var_list->attr.omp_allocate)
gfc_error ("Sorry, !$OMP allocate for COMMON block variable %qs at %L "
"not supported", common->name, &common->where);
/* Add symbols to the segment. */
for (sym = var_list; sym; sym = sym->common_next)
{

View File

@ -821,6 +821,23 @@ gfc_finish_var_decl (tree decl, gfc_symbol * sym)
&& (TREE_STATIC (decl) || DECL_EXTERNAL (decl)))
set_decl_tls_model (decl, decl_default_tls_model (decl));
if (sym->attr.omp_allocate && TREE_STATIC (decl))
{
struct gfc_omp_namelist *n;
for (n = sym->ns->omp_allocate; n; n = n->next)
if (n->sym == sym)
break;
tree alloc = gfc_conv_constant_to_tree (n->u2.allocator);
tree align = (n->u.align ? gfc_conv_constant_to_tree (n->u.align)
: NULL_TREE);
if (align != NULL_TREE)
SET_DECL_ALIGN (decl, MAX (tree_to_uhwi (align),
DECL_ALIGN_UNIT (decl)) * BITS_PER_UNIT);
DECL_ATTRIBUTES (decl)
= tree_cons (get_identifier ("omp allocate"),
build_tree_list (alloc, align), DECL_ATTRIBUTES (decl));
}
/* Mark weak variables. */
if (sym->attr.ext_attr & (1 << EXT_ATTR_WEAK))
declare_weak (decl);
@ -5251,10 +5268,8 @@ gfc_trans_deferred_vars (gfc_symbol * proc_sym, gfc_wrapped_block * block)
se.expr = NULL_TREE;
for (struct gfc_omp_namelist *n = omp_ns ? omp_ns->omp_allocate : NULL;
n; n = n->next)
if (!TREE_STATIC (n->sym->backend_decl))
{
tree align = (n->u.align ? gfc_conv_constant_to_tree (n->u.align)
: NULL_TREE);
tree align = (n->u.align ? gfc_conv_constant_to_tree (n->u.align) : NULL_TREE);
if (last_allocator != n->u2.allocator)
{
location_t loc = input_location;
@ -5284,7 +5299,8 @@ gfc_trans_deferred_vars (gfc_symbol * proc_sym, gfc_wrapped_block * block)
last_allocator = n->u2.allocator;
input_location = loc;
}
if (TREE_STATIC (n->sym->backend_decl))
continue;
/* 'omp allocate( {purpose: allocator, value: align},
{purpose: init-stmtlist, value: cleanup-stmtlist},
{purpose: size-var, value: last-size-expr}}
@ -5301,21 +5317,6 @@ gfc_trans_deferred_vars (gfc_symbol * proc_sym, gfc_wrapped_block * block)
TREE_PURPOSE (TREE_CHAIN (tmp)) = init_stmtlist;
TREE_VALUE (TREE_CHAIN (tmp)) = cleanup_stmtlist;
}
else if (n->sym->attr.in_common)
{
gfc_error ("Sorry, !$OMP allocate for COMMON block variable %qs at %L "
"not supported", n->sym->common_block->name,
&n->sym->common_block->where);
break;
}
else
{
gfc_error ("Sorry, !$OMP allocate for variable %qs at %L with SAVE "
"attribute not yet implemented", n->sym->name,
&n->sym->declared_at);
/* FIXME: Remember to handle last_allocator. */
break;
}
gfc_init_block (&tmpblock);

View File

@ -1396,6 +1396,7 @@ gimplify_bind_expr (tree *expr_p, gimple_seq *pre_p)
if (flag_openmp
&& !is_global_var (t)
&& !TREE_STATIC (t)
&& DECL_CONTEXT (t) == current_function_decl
&& TREE_USED (t)
&& (attr = lookup_attribute ("omp allocate", DECL_ATTRIBUTES (t)))
@ -1427,11 +1428,17 @@ gimplify_bind_expr (tree *expr_p, gimple_seq *pre_p)
"%<allocate%> directive for %qD inside a target "
"region must specify an %<allocator%> clause", t);
/* Skip for omp_default_mem_alloc (= 1),
unless align is present. */
unless align is present. For C/C++, there should be always a
statement list following if TREE_USED, except for, e.g., using
this decl in a static_assert; in that case, only a single
DECL_EXPR remains, which can be skipped here. */
else if (!errorcount
&& (align != NULL_TREE
|| alloc == NULL_TREE
|| !integer_onep (alloc)))
|| !integer_onep (alloc))
&& (lang_GNU_Fortran ()
|| (TREE_CODE (BIND_EXPR_BODY (bind_expr))
!= DECL_EXPR)))
{
/* Fortran might already use a pointer type internally;
use that pointer except for type(C_ptr) and type(C_funptr);
@ -13326,6 +13333,17 @@ gimplify_scan_omp_clauses (tree *list_p, gimple_seq *pre_p,
break;
case OMP_CLAUSE_ALLOCATE:
decl = OMP_CLAUSE_ALLOCATE_ALLOCATOR (c);
if (decl
&& TREE_CODE (decl) == INTEGER_CST
&& wi::eq_p (wi::to_widest (decl), GOMP_OMP_PREDEF_ALLOC_THREADS)
&& (code == OMP_TARGET || code == OMP_TASK || code == OMP_TASKLOOP))
warning_at (OMP_CLAUSE_LOCATION (c), OPT_Wopenmp,
"allocator with access trait set to %<thread%> "
"results in undfined behavior for %qs directive",
code == OMP_TARGET ? "target"
: (code == OMP_TASK
? "task" : "taskloop"));
decl = OMP_CLAUSE_DECL (c);
if (error_operand_p (decl))
{

View File

@ -0,0 +1,59 @@
typedef enum omp_allocator_handle_t
#if __cplusplus >= 201103L
: __UINTPTR_TYPE__
#endif
{
omp_null_allocator = 0,
omp_default_mem_alloc = 1,
omp_large_cap_mem_alloc = 2,
omp_const_mem_alloc = 3,
omp_high_bw_mem_alloc = 4,
omp_low_lat_mem_alloc = 5,
omp_cgroup_mem_alloc = 6,
omp_pteam_mem_alloc = 7,
omp_thread_mem_alloc = 8,
__omp_allocator_handle_t_max__ = __UINTPTR_MAX__
} omp_allocator_handle_t;
void test0 ()
{
int A1[5];
#pragma omp allocate(A1) align(128) allocator(omp_default_mem_alloc)
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
#ifndef __cplusplus
_Static_assert (_Alignof(A1) == 128, "wrong alignment");
#elif __cplusplus >= 201103L
static_assert (alignof(A1) == 128, "wrong alignment"); /* { dg-bogus "static assertion failed: wrong alignment" "" { xfail { c++ && { ! c++98_only } } } } */
#endif
}
void
test1 ()
{
int x[5];
#pragma omp parallel allocate(omp_thread_mem_alloc: x) firstprivate(x)
x[0] = 1;
#pragma omp target allocate(omp_thread_mem_alloc: x) firstprivate(x) /* uses_allocators(omp_thread_mem_alloc) */
/* { dg-warning "allocator with access trait set to 'thread' results in undfined behavior for 'target' directive \\\[-Wopenmp\\\]" "" { target *-*-* } .-1 } */
x[0] = 1;
#pragma omp taskloop allocate(omp_thread_mem_alloc: x) firstprivate(x)
/* { dg-warning "allocator with access trait set to 'thread' results in undfined behavior for 'taskloop' directive \\\[-Wopenmp\\\]" "" { target *-*-* } .-1 } */
for (int i = 0; i < 5; i++)
x[i] = i;
#pragma omp parallel master taskloop simd allocate(omp_thread_mem_alloc: x) firstprivate(x)
/* { dg-warning "allocator with access trait set to 'thread' results in undfined behavior for 'taskloop' directive \\\[-Wopenmp\\\]" "" { target *-*-* } .-1 } */
for (int i = 0; i < 5; i++)
x[i] = i;
#pragma omp parallel
#pragma omp masked
{
#pragma omp task allocate(omp_thread_mem_alloc: x) firstprivate(x)
/* { dg-warning "allocator with access trait set to 'thread' results in undfined behavior for 'task' directive \\\[-Wopenmp\\\]" "" { target *-*-* } .-1 } */
x[0] = 1;
}
}

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@ -0,0 +1,69 @@
typedef enum omp_allocator_handle_t
#if __cplusplus >= 201103L
: __UINTPTR_TYPE__
#endif
{
omp_null_allocator = 0,
omp_default_mem_alloc = 1,
omp_large_cap_mem_alloc = 2,
omp_const_mem_alloc = 3,
omp_high_bw_mem_alloc = 4,
omp_low_lat_mem_alloc = 5,
omp_cgroup_mem_alloc = 6,
omp_pteam_mem_alloc = 7,
omp_thread_mem_alloc = 8,
ompx_gnu_pinned_bogus_1 = 9,
ompx_gnu_pinned_bogus_2 = 199,
ompx_gnu_pinned_mem_alloc = 200,
ompx_gnu_pinned_bogus_3 = 2001,
__omp_allocator_handle_t_max__ = __UINTPTR_MAX__
} omp_allocator_handle_t;
static int A1[5] = {1,2,3,4,5};
#pragma omp allocate(A1) align(128) allocator(omp_default_mem_alloc)
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
#ifndef __cplusplus
_Static_assert (_Alignof(A1) == 128, "wrong alignment");
#elif __cplusplus >= 201103L
static_assert (alignof(A1) == 128, "wrong alignment"); /* { dg-bogus "static assertion failed: wrong alignment" "" { xfail { c++ && { ! c++98_only } } } } */
#endif
static int *ptr;
#pragma omp allocate(ptr) align(2) allocator(omp_default_mem_alloc)
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
#ifndef __cplusplus
_Static_assert (_Alignof(ptr) == _Alignof(int*), "wrong alignment");
#elif __cplusplus >= 201103L
static_assert (alignof(ptr) == alignof(int*), "wrong alignment");
#endif
int *
get ()
{
static int q = 0;
#pragma omp allocate(q) align(1024) allocator(omp_default_mem_alloc)
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
#ifndef __cplusplus
_Static_assert (_Alignof(q) == 1024, "wrong alignment");
#elif __cplusplus >= 201103L
static_assert (alignof(q) == 1024, "wrong alignment"); /* { dg-bogus "static assertion failed: wrong alignment" "" { xfail { c++ && { ! c++98_only } } } } */
#endif
q += 1;
return &A1[q];
}
static int invalid1, okay1, invalid2, invalid3;
#pragma omp allocate(invalid1) align(128) allocator(ompx_gnu_pinned_bogus_1) /* { dg-error "'allocator' clause requires a predefined allocator as 'invalid1' is static" "" { xfail c++ } } */
#pragma omp allocate(okay1) align(128) allocator(ompx_gnu_pinned_mem_alloc) /* Okay */
#pragma omp allocate(invalid2) align(128) allocator(ompx_gnu_pinned_bogus_2) /* { dg-error "'allocator' clause requires a predefined allocator as 'invalid2' is static" "" { xfail c++ } } */
#pragma omp allocate(invalid3) align(128) allocator(ompx_gnu_pinned_bogus_3) /* { dg-error "'allocator' clause requires a predefined allocator as 'invalid3' is static" "" { xfail c++ } } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-4 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-4 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-4 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-4 } */

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@ -18,7 +18,11 @@ typedef enum omp_allocator_handle_t
static int A[5] = {1,2,3,4,5};
int B, C, D;
static int A2[5] = {1,2,3,4,5};
static int A3[5] = {1,2,3,4,5};
static int A4[5] = {1,2,3,4,5};
static int A5[5] = {1,2,3,4,5};
int B, C, C2, D;
/* If the following fails because of added predefined allocators, please update
- c/c-parser.c's c_parser_omp_allocate
@ -30,46 +34,45 @@ int B, C, D;
#pragma omp allocate(A) align(32) allocator((omp_allocator_handle_t) 9) /* { dg-error "'allocator' clause requires a predefined allocator as 'A' is static" "" { xfail c++ } } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
// typo in allocator name:
#pragma omp allocate(A) allocator(omp_low_latency_mem_alloc)
#pragma omp allocate(A2) allocator(omp_low_latency_mem_alloc)
/* { dg-error "'omp_low_latency_mem_alloc' undeclared here \\(not in a function\\); did you mean 'omp_low_lat_mem_alloc'\\?" "" { target c } .-1 } */
/* { dg-error "'omp_low_latency_mem_alloc' was not declared in this scope; did you mean 'omp_low_lat_mem_alloc'\\?" "" { target c++ } .-2 } */
/* { dg-error "'allocator' clause required for static variable 'A'" "" { target c } .-3 } */
/* { dg-error "'allocator' clause required for static variable 'A2'" "" { target c } .-3 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-4 } */
/* align be const multiple of 2 */
#pragma omp allocate(A) align(31) allocator(omp_default_mem_alloc) /* { dg-error "'align' clause argument needs to be positive constant power of two integer expression" } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' for static variables like 'A' not yet supported" "" { target c } .-1 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-2 } */
#pragma omp allocate(A3) align(31) allocator(omp_default_mem_alloc) /* { dg-error "'align' clause argument needs to be positive constant power of two integer expression" } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
/* allocator missing (required as A is static) */
#pragma omp allocate(A) align(32) /* { dg-error "'allocator' clause required for static variable 'A'" "" { xfail c++ } } */
#pragma omp allocate(A4) align(32) /* { dg-error "'allocator' clause required for static variable 'A4'" "" { xfail c++ } } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
/* "expression in the clause must be a constant expression that evaluates to one of the
predefined memory allocator values -> omp_low_lat_mem_alloc" */
#pragma omp allocate(B) allocator((omp_allocator_handle_t) (omp_high_bw_mem_alloc+1)) align(32) /* OK: omp_low_lat_mem_alloc */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' for static variables like 'B' not yet supported" "" { target c } .-1 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-2 } */
#pragma omp allocate(C) allocator((omp_allocator_handle_t) 2) /* OK: omp_large_cap_mem_alloc */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' for static variables like 'C' not yet supported" "" { target c } .-1 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-2 } */
#pragma omp allocate(A) align(32) allocator(omp_null_allocator) /* { dg-error "'allocator' clause requires a predefined allocator as 'A' is static" "" { xfail c++ } } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
#pragma omp allocate(C) align(32) allocator(omp_large_cap_mem_alloc) /* { dg-error "'C' already appeared as list item in an 'allocate' directive" "" { xfail *-*-* } } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' for static variables like 'C' not yet supported" "" { target c } .-1 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-2 } */
#pragma omp allocate(C) allocator((omp_allocator_handle_t) 2) /* OK: omp_large_cap_mem_alloc */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
#pragma omp allocate(A5) align(32) allocator(omp_null_allocator) /* { dg-error "'allocator' clause requires a predefined allocator as 'A5' is static" "" { xfail c++ } } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
#pragma omp allocate(C2) align(32) allocator(omp_large_cap_mem_alloc)
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
// allocate directive in same TU
int f()
{
#pragma omp allocate(D) align(32) allocator(omp_large_cap_mem_alloc) /* { dg-error "'allocate' directive must be in the same scope as 'D'" "" { xfail c++ } } */
/* { dg-note "declared here" "" { target c } 21 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-2 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
/* { dg-note "declared here" "" { target c } 25 } */
return A[0];
}
@ -83,8 +86,8 @@ int g()
{
int c2=3;
#pragma omp allocate(c2, b2) /* { dg-error "'allocate' directive must be in the same scope as 'b2'" "" { xfail c++ } } */
/* { dg-note "declared here" "" { target c } .-8 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-2 } */
/* { dg-message "sorry, unimplemented: '#pragma omp allocate' not yet supported" "" { target c++ } .-1 } */
/* { dg-note "declared here" "" { target c } .-9 } */
return c2+a2+b2;
}
}

View File

@ -30,7 +30,7 @@ end
integer function allocators() result(res)
use m
integer, save :: a(5) = [1,2,3,4,5] ! { dg-error "Sorry, !.OMP allocate for variable 'a' at .1. with SAVE attribute not yet implemented" }
integer, save :: a(5) = [1,2,3,4,5]
!$omp allocate(a) allocator(omp_high_bw_mem_alloc)
res = a(4)
end

View File

@ -39,7 +39,7 @@ integer :: a,b,c(n),d(5),e(2)
!$omp allocate( e ) allocator( omp_high_bw_mem_alloc )
!saved vars
integer, save :: k,l,m(5),r(2) ! { dg-error "Sorry, !.OMP allocate for variable 'k' at .1. with SAVE attribute not yet implemented" }
integer, save :: k,l,m(5),r(2)
!$omp allocate(k) align(16) , allocator (omp_large_cap_mem_alloc)
!$omp allocate ( l ) allocator (omp_large_cap_mem_alloc) , align ( 32)
!$omp allocate (m) align( 128 ),allocator( omp_high_bw_mem_alloc )
@ -47,8 +47,8 @@ integer, save :: k,l,m(5),r(2) ! { dg-error "Sorry, !.OMP allocate for variable
!common /block/
integer :: q,x,y(2),z(5)
common /com1/ q,x
common /com2/ y,z
common /com1/ q,x ! { dg-error "Sorry, !.OMP allocate for COMMON block variable 'com1' at .1. not supported" }
common /com2/ y,z ! { dg-error "Sorry, !.OMP allocate for COMMON block variable 'com2' at .1. not supported" }
!$omp allocate ( / com1/) align( 128 ) allocator( omp_high_bw_mem_alloc )
!$omp allocate(/com2 / ) allocator( omp_high_bw_mem_alloc )
end

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@ -0,0 +1,61 @@
module omp_lib_kinds
use iso_c_binding, only: c_int, c_intptr_t
implicit none
private :: c_int, c_intptr_t
integer, parameter :: omp_allocator_handle_kind = c_intptr_t
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_null_allocator = 0
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_default_mem_alloc = 1
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_large_cap_mem_alloc = 2
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_const_mem_alloc = 3
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_high_bw_mem_alloc = 4
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_low_lat_mem_alloc = 5
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_cgroup_mem_alloc = 6
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_pteam_mem_alloc = 7
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_thread_mem_alloc = 8
end module
subroutine test1 ()
use omp_lib_kinds
implicit none
integer :: x(5), i
!$omp parallel allocate(omp_thread_mem_alloc: x) firstprivate(x)
x(1) = 1
!$omp end parallel
!$omp target allocate(omp_thread_mem_alloc: x) firstprivate(x) ! uses_allocators(omp_thread_mem_alloc)
! { dg-warning "allocator with access trait set to 'thread' results in undfined behavior for 'target' directive \\\[-Wopenmp\\\]" "" { target *-*-* } .-1 }
x(1) = 1
!$omp end target
!$omp taskloop allocate(omp_thread_mem_alloc: x) firstprivate(x)
! { dg-warning "allocator with access trait set to 'thread' results in undfined behavior for 'taskloop' directive \\\[-Wopenmp\\\]" "" { target *-*-* } .-1 }
do i = 1, 5
x(i) = i
end do
!$omp parallel master taskloop simd allocate(omp_thread_mem_alloc: x) firstprivate(x)
! { dg-warning "allocator with access trait set to 'thread' results in undfined behavior for 'taskloop' directive \\\[-Wopenmp\\\]" "" { target *-*-* } .-1 }
do i = 1, 5
x(i) = i
end do
!$omp parallel
!$omp masked
!$omp task allocate(omp_thread_mem_alloc: x) firstprivate(x)
! { dg-warning "allocator with access trait set to 'thread' results in undfined behavior for 'task' directive \\\[-Wopenmp\\\]" "" { target *-*-* } .-1 }
x(1) = 1
!$omp end task
!$omp end masked
!$omp end parallel
end

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@ -11,6 +11,6 @@ subroutine f ()
use m
implicit none
! The "Sorry" is here temporarily only to avoid excess error failures.
integer, save :: i ! { dg-error "Sorry, !.OMP allocate for variable 'i' at .1. with SAVE attribute not yet implemented" }
integer, save :: i
!$omp allocate(i) allocator(ompx_gnu_pinned_mem_alloc)
end

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@ -0,0 +1,52 @@
module omp_lib_kinds
use iso_c_binding, only: c_int, c_intptr_t
implicit none
private :: c_int, c_intptr_t
integer, parameter :: omp_allocator_handle_kind = c_intptr_t
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_null_allocator = 0
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_default_mem_alloc = 1
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_large_cap_mem_alloc = 2
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_const_mem_alloc = 3
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_high_bw_mem_alloc = 4
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_low_lat_mem_alloc = 5
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_cgroup_mem_alloc = 6
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_pteam_mem_alloc = 7
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_thread_mem_alloc = 8
end module
module m
use omp_lib_kinds, only: omp_default_mem_alloc
implicit none
integer a,b
common /foo/ a,b ! { dg-error "Sorry, !.OMP allocate for COMMON block variable 'foo' at .1. not supported" }
!$omp allocate(/foo/) align(128) allocator(omp_default_mem_alloc)
end
subroutine sub
use omp_lib_kinds
implicit none
integer a,b
common /foo/ a,b ! { dg-error "Sorry, !.OMP allocate for COMMON block variable 'foo' at .1. not supported" }
!$omp allocate(/foo/) align(128) allocator(omp_default_mem_alloc)
end
subroutine outer
contains
subroutine inner
use omp_lib_kinds
implicit none
integer a,b
common /foo/ a,b ! { dg-error "Sorry, !.OMP allocate for COMMON block variable 'foo' at .1. not supported" }
!$omp allocate(/foo/) align(128) allocator(omp_default_mem_alloc)
end
end

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@ -0,0 +1,62 @@
! { dg-do run }
module omp_lib_kinds
use iso_c_binding, only: c_int, c_intptr_t
implicit none
private :: c_int, c_intptr_t
integer, parameter :: omp_allocator_handle_kind = c_intptr_t
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_null_allocator = 0
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_default_mem_alloc = 1
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_large_cap_mem_alloc = 2
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_const_mem_alloc = 3
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_high_bw_mem_alloc = 4
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_low_lat_mem_alloc = 5
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_cgroup_mem_alloc = 6
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_pteam_mem_alloc = 7
integer (kind=omp_allocator_handle_kind), &
parameter :: omp_thread_mem_alloc = 8
end module
module m
use iso_c_binding, only: c_intptr_t
use omp_lib_kinds, only: omp_default_mem_alloc
implicit none (type, external)
integer(c_intptr_t) :: intptr
integer :: A(4) = [1,2,3,4]
!$omp allocate(A) align(128) allocator(omp_default_mem_alloc)
contains
subroutine f()
integer :: B(4) = [1,2,3,4]
!$omp allocate(B) align(256) allocator(omp_default_mem_alloc)
if (mod (transfer (loc (A), intptr), 128_c_intptr_t) /= 0) stop 1
if (mod (transfer (loc (B), intptr), 256_c_intptr_t) /= 0) stop 2
call inner()
contains
subroutine inner()
integer :: C(4) = [1,2,3,4]
!$omp allocate(C) align(1024) allocator(omp_default_mem_alloc)
if (mod (transfer (loc (A), intptr), 128_c_intptr_t) /= 0) stop 3
if (mod (transfer (loc (B), intptr), 256_c_intptr_t) /= 0) stop 4
if (mod (transfer (loc (C), intptr), 1024_c_intptr_t) /= 0) stop 5
end
end
end
use m
implicit none (type, external)
if (mod (transfer (loc (A), intptr), 128_c_intptr_t) /= 0) stop 6
call f()
end

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@ -382,6 +382,14 @@ enum gomp_map_kind
#define GOMP_DEPEND_MUTEXINOUTSET 4
#define GOMP_DEPEND_INOUTSET 5
/* Predefined allocator value ranges. */
#define GOMP_OMP_PREDEF_ALLOC_MAX 8
#define GOMP_OMPX_PREDEF_ALLOC_MIN 200
#define GOMP_OMPX_PREDEF_ALLOC_MAX 200
/* Predefined allocator with access == thread. */
#define GOMP_OMP_PREDEF_ALLOC_THREADS 8
/* Flag values for OpenMP 'requires' directive features. */
// compiler use only: OMP_REQUIRES_ATOMIC_DEFAULT_MEM_ORDER 0xf
#define GOMP_REQUIRES_UNIFIED_ADDRESS 0x10

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@ -102,6 +102,15 @@ GOMP_is_alloc (void *ptr)
#define ompx_gnu_min_predefined_alloc ompx_gnu_pinned_mem_alloc
#define ompx_gnu_max_predefined_alloc ompx_gnu_pinned_mem_alloc
_Static_assert (GOMP_OMP_PREDEF_ALLOC_MAX == omp_thread_mem_alloc,
"GOMP_OMP_PREDEF_ALLOC_MAX == omp_thread_mem_alloc");
_Static_assert (GOMP_OMPX_PREDEF_ALLOC_MIN == ompx_gnu_min_predefined_alloc,
"GOMP_OMP_PREDEF_ALLOC_MAX == omp_thread_mem_alloc");
_Static_assert (GOMP_OMPX_PREDEF_ALLOC_MAX == ompx_gnu_max_predefined_alloc,
"GOMP_OMP_PREDEF_ALLOC_MAX == omp_thread_mem_alloc");
_Static_assert (GOMP_OMP_PREDEF_ALLOC_THREADS == omp_thread_mem_alloc,
"GOMP_OMP_PREDEF_ALLOC_THREADS == omp_thread_mem_alloc");
/* These macros may be overridden in config/<target>/allocator.c.
The defaults (no override) are to return NULL for pinned memory requests
and pass through to the regular OS calls otherwise.

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@ -233,9 +233,9 @@ The OpenMP 4.5 specification is fully supported.
@tab Y @tab See also @ref{Memory allocation}
@item Memory management routines @tab Y @tab
@item @code{allocate} directive @tab P
@tab Only C for stack/automatic and Fortran for stack/automatic
and allocatable/pointer variables
@item @code{allocate} clause @tab P @tab Initial support
@tab C++ unsupported; see also @ref{Memory allocation}
@item @code{allocate} clause @tab P @tab Clause has no effect on @code{target}
(@uref{https://gcc.gnu.org/PR113436,PR113436})
@item @code{use_device_addr} clause on @code{target data} @tab Y @tab
@item @code{ancestor} modifier on @code{device} clause @tab Y @tab
@item Implicit declare target directive @tab Y @tab
@ -306,7 +306,7 @@ The OpenMP 4.5 specification is fully supported.
@item @code{strict} modifier in the @code{grainsize} and @code{num_tasks}
clauses of the @code{taskloop} construct @tab Y @tab
@item @code{align} clause in @code{allocate} directive @tab P
@tab Only C and Fortran (and not for static variables)
@tab Only C and Fortran
@item @code{align} modifier in @code{allocate} clause @tab Y @tab
@item @code{thread_limit} clause to @code{target} construct @tab Y @tab
@item @code{has_device_addr} clause to @code{target} construct @tab Y @tab
@ -6414,14 +6414,14 @@ The description below applies to:
constant expression with value @code{omp_default_mem_alloc} and no
@code{align} modifier has been specified. (In that case, the normal
@code{malloc} allocation is used.)
@item The @code{allocate} directive for variables in static memory; while
the alignment is honored, the normal static memory is used.
@item Using the @code{allocate} directive for automatic/stack variables, except
when the @code{allocator} clause is a constant expression with value
@code{omp_default_mem_alloc} and no @code{align} clause has been
specified. (In that case, the normal allocation is used: stack allocation
and, sometimes for Fortran, also @code{malloc} [depending on flags such as
@option{-fstack-arrays}].)
@item Using the @code{allocate} directive for variable in static memory is
currently not supported (compile time error).
@item In Fortran, the @code{allocators} directive and the executable
@code{allocate} directive for Fortran pointers and allocatables is
supported, but requires that files containing those directives has to be
@ -6433,7 +6433,8 @@ The description below applies to:
For the available predefined allocators and, as applicable, their associated
predefined memory spaces and for the available traits and their default values,
see @ref{OMP_ALLOCATOR}. Predefined allocators without an associated memory
space use the @code{omp_default_mem_space} memory space.
space use the @code{omp_default_mem_space} memory space. See additionally
@ref{Offload-Target Specifics}.
For the memory spaces, the following applies:
@itemize