This patch implements relaxing the requirements when a map with the implicit
attribute encounters an overlapping existing map. As the OpenMP 5.0 spec
describes on page 320, lines 18-27 (and 5.1 spec, page 352, lines 13-22):
"If a single contiguous part of the original storage of a list item with an
implicit data-mapping attribute has corresponding storage in the device data
environment prior to a task encountering the construct that is associated with
the map clause, only that part of the original storage will have corresponding
storage in the device data environment as a result of the map clause."
2021-11-12 Chung-Lin Tang <cltang@codesourcery.com>
include/ChangeLog:
* gomp-constants.h (GOMP_MAP_FLAG_SPECIAL_3): Define special bit macro.
(GOMP_MAP_IMPLICIT): New special map kind bits value.
(GOMP_MAP_FLAG_SPECIAL_BITS): Define helper mask for whole set of
special map kind bits.
(GOMP_MAP_IMPLICIT_P): New predicate macro for implicit map kinds.
gcc/ChangeLog:
* tree.h (OMP_CLAUSE_MAP_RUNTIME_IMPLICIT_P): New access macro for
'implicit' bit, using 'base.deprecated_flag' field of tree_node.
* tree-pretty-print.c (dump_omp_clause): Add support for printing
implicit attribute in tree dumping.
* gimplify.c (gimplify_adjust_omp_clauses_1):
Set OMP_CLAUSE_MAP_RUNTIME_IMPLICIT_P to 1 if map clause is implicitly
created.
(gimplify_adjust_omp_clauses): Adjust place of adding implicitly created
clauses, from simple append, to starting of list, after non-map clauses.
* omp-low.c (lower_omp_target): Add GOMP_MAP_IMPLICIT bits into kind
values passed to libgomp for implicit maps.
gcc/testsuite/ChangeLog:
* c-c++-common/gomp/target-implicit-map-1.c: New test.
* c-c++-common/goacc/combined-reduction.c: Adjust scan test pattern.
* c-c++-common/goacc/firstprivate-mappings-1.c: Likewise.
* c-c++-common/goacc/mdc-1.c: Likewise.
* g++.dg/goacc/firstprivate-mappings-1.C: Likewise.
libgomp/ChangeLog:
* target.c (gomp_map_vars_existing): Add 'bool implicit' parameter, add
implicit map handling to allow a "superset" existing map as valid case.
(get_kind): Adjust to filter out GOMP_MAP_IMPLICIT bits in return value.
(get_implicit): New function to extract implicit status.
(gomp_map_fields_existing): Adjust arguments in calls to
gomp_map_vars_existing, and add uses of get_implicit.
(gomp_map_vars_internal): Likewise.
* testsuite/libgomp.c-c++-common/target-implicit-map-1.c: New test.
The following patch implements what I've been talking about earlier,
honor that for explicit num_teams clause we create at least the
lower-bound (if not specified, upper-bound) teams in the league.
For host fallback, it still means we only have one thread doing all the
teams, sequentially one after another.
For PTX and GCN, I think the new teams-2.c test and maybe teams-4.c too
will or might fail.
For these offloads, I think it is ok to remove symbols no longer used
from libgomp.a.
If num_teams_lower is bigger than the provided num_blocks or num_workgroups,
we should arrange for gomp_num_teams_var to be num_teams_lower - 1,
stop using the %ctaid.x or __builtin_gcn_dim_pos (0) for omp_get_team_num ()
and instead use for it some .shared var that GOMP_teams4 initializes to
%ctaid.x or __builtin_gcn_dim_pos (0) when first and for !first
increment that by num_blocks or num_workgroups each time and only
return false when we are above num_teams_lower.
Any help with actually implementing this for the 2 architectures highly
appreciated.
2021-11-12 Jakub Jelinek <jakub@redhat.com>
gcc/
* omp-builtins.def (BUILT_IN_GOMP_TEAMS): Remove.
(BUILT_IN_GOMP_TEAMS4): New.
* builtin-types.def (BT_FN_VOID_UINT_UINT): Remove.
(BT_FN_BOOL_UINT_UINT_UINT_BOOL): New.
* omp-low.c (lower_omp_teams): Use GOMP_teams4 instead of
GOMP_teams, pass to it also num_teams lower-bound expression
or a dup of upper-bound if it is missing and a flag whether
it is the first call or not.
gcc/fortran/
* types.def (BT_FN_VOID_UINT_UINT): Remove.
(BT_FN_BOOL_UINT_UINT_UINT_BOOL): New.
libgomp/
* libgomp_g.h (GOMP_teams4): Declare.
* libgomp.map (GOMP_5.1): Export GOMP_teams4.
* target.c (GOMP_teams4): New function.
* config/nvptx/target.c (GOMP_teams): Remove.
(GOMP_teams4): New function.
* config/gcn/target.c (GOMP_teams): Remove.
(GOMP_teams4): New function.
* testsuite/libgomp.c/teams-4.c (main): Expect exactly 2
teams instead of <= 2.
* testsuite/libgomp.c-c++-common/teams-2.c: New test.
When thinking about GOMP_teams3, I've realized that using global variables
for the values returned by omp_get_num_teams()/omp_get_team_num() calls
is incorrect even with our right now dumb way of implementing host teams.
The problems are two, one is if host teams is used from multiple pthread_create
created threads - the spec says that host teams can't be nested inside of
explicit parallel or other teams constructs, but with pthread_create the
standard says obviously nothing about it. Another more important thing
is host fallback, right now we don't do anything for omp_get_num_teams()
or omp_get_team_num() which was fine before host teams was introduced and
the 5.1 requirement that num_teams clause specifies minimum of teams, but
with the global vars it means inside of target teams num_teams (2) we happily
return omp_get_num_teams() == 4 if the target teams is inside of host teams
with num_teams(4). With target fallback being invoked from parallel
regions global vars simply can't work right on the host.
So, this patch moves them to struct gomp_thread and propagates those for
parallel to child threads. For host fallback, the implicit zeroing of
*thr results in us returning omp_get_num_teams () == 1 and
omp_get_team_num () == 0 which is fine for target teams without num_teams
clause, for target teams with num_teams clause something to work on and
for target without teams nested in it I've asked on omp-lang what should
be done.
2021-11-11 Jakub Jelinek <jakub@redhat.com>
* libgomp.h (struct gomp_thread): Add num_teams and team_num members.
* team.c (struct gomp_thread_start_data): Likewise.
(gomp_thread_start): Initialize thr->num_teams and thr->team_num.
(gomp_team_start): Initialize start_data->num_teams and
start_data->team_num. Update nthr->num_teams and nthr->team_num.
* teams.c (gomp_num_teams, gomp_team_num): Remove.
(GOMP_teams_reg): Set and restore thr->num_teams and thr->team_num
instead of gomp_num_teams and gomp_team_num.
(omp_get_num_teams): Use thr->num_teams + 1 instead of gomp_num_teams.
(omp_get_team_num): Use thr->team_num instead of gomp_team_num.
* testsuite/libgomp.c/teams-4.c: New test.
In OpenMP 5.1, num_teams clause can accept either one expression as before,
but it in that case changed meaning, rather than create <= expression
teams it is now create == expression teams. Or it accepts two expressions
separated by :, with the meaning that the first is low bound and second upper
bound on how many teams should be created. The other ways to set number of
teams are upper bounds with lower bound of 1.
The following patch does parsing of this for C/C++. For host teams, we
actually don't need to do anything further right now, we always create
(pretend to create) exactly the requested number of teams, so we can just
evaluate and throw away the lower bound for now.
For teams nested in target, we don't guarantee that though and further
work will be needed.
In particular, omplower now turns the teams part of:
struct S { S (); S (const S &); ~S (); int s; };
void bar (S &, S &);
int baz ();
_Pragma ("omp declare target to (baz)");
void
foo (void)
{
S a, b;
#pragma omp target private (a) map (b)
{
#pragma omp teams firstprivate (b) num_teams (baz ())
{
bar (a, b);
}
}
}
into:
retval.0 = baz ();
retval.1 = retval.0;
{
unsigned int retval.3;
struct S * D.2549;
struct S b;
retval.3 = (unsigned int) retval.1;
D.2549 = .omp_data_i->b;
S::S (&b, D.2549);
#pragma omp teams num_teams(retval.1) firstprivate(b) shared(a)
__builtin_GOMP_teams (retval.3, 0);
{
bar (&a, &b);
}
S::~S (&b);
#pragma omp return(nowait)
}
IMHO we want a new API, say GOMP_teams3 which will take 3 arguments
instead of 2 (the lower and upper bounds from num_teams and thread_limit)
and will return a bool whether it should do the teams body or not.
And, we should add right before outermost {} above
while (__builtin_GOMP_teams3 ((unsigned) retval.1, (unsigned) retval.1, 0))
and remove the __builtin_GOMP_teams call. The current function performs
exit equivalent (at least on NVPTX) which seems bad because that means
the destructors of e.g. private variables on target aren't invoked, and
at the current placement neither destructors of the already constructed
privatized variables in teams.
I'll do this next on the compiler side, but I'm afraid I'll need help
with the nvptx and amdgcn implementations. E.g. for nvptx, we won't be
able to use %ctaid.x . I think ideal would be to use a .shared
integer variable for the omp_get_team_num value, but I don't have any
experience with that, are .shared variables zero initialized by default,
or do they have random value at start? PTX docs say they aren't initializable.
2021-11-11 Jakub Jelinek <jakub@redhat.com>
gcc/
* tree.h (OMP_CLAUSE_NUM_TEAMS_EXPR): Rename to ...
(OMP_CLAUSE_NUM_TEAMS_UPPER_EXPR): ... this.
(OMP_CLAUSE_NUM_TEAMS_LOWER_EXPR): Define.
* tree.c (omp_clause_num_ops): Increase num ops for
OMP_CLAUSE_NUM_TEAMS to 2.
* tree-pretty-print.c (dump_omp_clause): Print optional lower bound
for OMP_CLAUSE_NUM_TEAMS.
* gimplify.c (gimplify_scan_omp_clauses): Gimplify
OMP_CLAUSE_NUM_TEAMS_LOWER_EXPR if non-NULL.
(optimize_target_teams): Use OMP_CLAUSE_NUM_TEAMS_UPPER_EXPR instead
of OMP_CLAUSE_NUM_TEAMS_EXPR. Handle OMP_CLAUSE_NUM_TEAMS_LOWER_EXPR.
* omp-low.c (lower_omp_teams): Use OMP_CLAUSE_NUM_TEAMS_UPPER_EXPR
instead of OMP_CLAUSE_NUM_TEAMS_EXPR.
* omp-expand.c (expand_teams_call, get_target_arguments): Likewise.
gcc/c/
* c-parser.c (c_parser_omp_clause_num_teams): Parse optional
lower-bound and store it into OMP_CLAUSE_NUM_TEAMS_LOWER_EXPR.
Use OMP_CLAUSE_NUM_TEAMS_UPPER_EXPR instead of
OMP_CLAUSE_NUM_TEAMS_EXPR.
(c_parser_omp_target): For OMP_CLAUSE_NUM_TEAMS evaluate before
combined target teams even lower-bound expression.
gcc/cp/
* parser.c (cp_parser_omp_clause_num_teams): Parse optional
lower-bound and store it into OMP_CLAUSE_NUM_TEAMS_LOWER_EXPR.
Use OMP_CLAUSE_NUM_TEAMS_UPPER_EXPR instead of
OMP_CLAUSE_NUM_TEAMS_EXPR.
(cp_parser_omp_target): For OMP_CLAUSE_NUM_TEAMS evaluate before
combined target teams even lower-bound expression.
* semantics.c (finish_omp_clauses): Handle
OMP_CLAUSE_NUM_TEAMS_LOWER_EXPR of OMP_CLAUSE_NUM_TEAMS clause.
* pt.c (tsubst_omp_clauses): Likewise.
(tsubst_expr): For OMP_CLAUSE_NUM_TEAMS evaluate before
combined target teams even lower-bound expression.
gcc/fortran/
* trans-openmp.c (gfc_trans_omp_clauses): Use
OMP_CLAUSE_NUM_TEAMS_UPPER_EXPR instead of OMP_CLAUSE_NUM_TEAMS_EXPR.
gcc/testsuite/
* c-c++-common/gomp/clauses-1.c (bar): Supply lower-bound expression
to half of the num_teams clauses.
* c-c++-common/gomp/num-teams-1.c: New test.
* c-c++-common/gomp/num-teams-2.c: New test.
* g++.dg/gomp/attrs-1.C (bar): Supply lower-bound expression
to half of the num_teams clauses.
* g++.dg/gomp/attrs-2.C (bar): Likewise.
* g++.dg/gomp/num-teams-1.C: New test.
* g++.dg/gomp/num-teams-2.C: New test.
libgomp/
* testsuite/libgomp.c-c++-common/teams-1.c: New test.
... that got broken by recent commit c057ed9c52
"openmp: Fix up strtoul and strtoull uses in libgomp", resulting in spurious
FAILs for tests specifying 'dg-set-target-env-var "GOMP_OPENACC_DIM" "[...]"'.
libgomp/
* env.c (parse_gomp_openacc_dim): Restore parsing.
The teams construct only permits omp_get_num_teams and omp_get_team_num
as API call in strictly nested regions - check for it.
Additionally, for Fortran, using DECL_NAME does not show the mangled
name, hence, DECL_ASSEMBLER_NAME had to be used to.
Finally, 'target device(ancestor:1)' wrongly rejected non-API calls
as well.
PR middle-end/102972
gcc/ChangeLog:
* omp-low.c (omp_runtime_api_call): Use DECL_ASSEMBLER_NAME to get
internal Fortran name; new permit_num_teams arg to permit
omp_get_num_teams and omp_get_team_num.
(scan_omp_1_stmt): Update call to it, add missing call for
reverse offload, and check for strictly nested API calls in teams.
gcc/testsuite/ChangeLog:
* c-c++-common/gomp/target-device-ancestor-3.c: Add non-API
routine test.
* gfortran.dg/gomp/order-6.f90: Add missing bind(C).
* c-c++-common/gomp/teams-3.c: New test.
* gfortran.dg/gomp/teams-3.f90: New test.
* gfortran.dg/gomp/teams-4.f90: New test.
libgomp/ChangeLog:
* testsuite/libgomp.c-c++-common/icv-3.c: Nest API calls inside
parallel construct.
* testsuite/libgomp.c-c++-common/icv-4.c: Likewise.
* testsuite/libgomp.c/target-3.c: Likewise.
* testsuite/libgomp.c/target-5.c: Likewise.
* testsuite/libgomp.c/target-6.c: Likewise.
* testsuite/libgomp.c/target-teams-1.c: Likewise.
* testsuite/libgomp.c/teams-1.c: Likewise.
* testsuite/libgomp.c/thread-limit-2.c: Likewise.
* testsuite/libgomp.c/thread-limit-3.c: Likewise.
* testsuite/libgomp.c/thread-limit-4.c: Likewise.
* testsuite/libgomp.c/thread-limit-5.c: Likewise.
* testsuite/libgomp.fortran/icv-3.f90: Likewise.
* testsuite/libgomp.fortran/icv-4.f90: Likewise.
* testsuite/libgomp.fortran/teams1.f90: Likewise.
This patch upgrades the pre-VRP threading passes to fully resolving
backward threaders, and removes the post-VRP threading passes altogether.
With it, we reduce the number of threaders in our pipeline from 9 to 7.
This will leave DOM as the only forward threader client. When the ranger
can handle floats, we should be able to upgrade the pre-DOM threaders to
fully resolving threaders and kill the embedded DOM threader.
The numbers are as follows:
prev: # threads in backward + vrp-threaders = 92624
now: # threads in backward threaders = 94275
Gain: +1.78%
prev: # total threads: 189495
now: # total threads: 193714
Gain: +2.22%
The numbers are not as great as my initial proposal, but I've
recently pushed all the work that got us to this point ;-).
And... the compilation improves by 1.32%!
There's a regression on uninit-pred-7_a.c that I've yet to look at. I
want to make sure it's not a missing thread. If it is, I'll create a PR
and own it.
Also, the tree-ssa/phi_on_compare-*.c tests have all regressed. This
seems to be some special case the forward threader handles that the
backward threader does not (edge_forwards_cmp_to_conditional_jump*).
I haven't dug deep to see if this is solveable within our
infrastructure, but a cursory look shows that even though the VRP
threader threads this, the *.optimized dump ends with more conditional
jumps than without the optimization. I'd like to punt on this for
now, because DOM actually catches this through its lone use of the
forward threader (I've adjusted the tests). However, we will need to
address this sooner or later, if indeed it's still improving the final
assembly.
gcc/ChangeLog:
* passes.def: Replace the pass_thread_jumps before VRP* with
pass_thread_jumps_full. Remove all pass_vrp_threader instances.
* tree-ssa-threadbackward.c (pass_data_thread_jumps_full):
Remove hyphen from "thread-full" name.
libgomp/ChangeLog:
* testsuite/libgomp.graphite/force-parallel-4.c: Adjust for threading changes.
* testsuite/libgomp.graphite/force-parallel-8.c: Same.
gcc/testsuite/ChangeLog:
* gcc.dg/loop-unswitch-2.c: Adjust for threading changes.
* gcc.dg/old-style-asm-1.c: Same.
* gcc.dg/tree-ssa/phi_on_compare-1.c: Same.
* gcc.dg/tree-ssa/phi_on_compare-2.c: Same.
* gcc.dg/tree-ssa/phi_on_compare-3.c: Same.
* gcc.dg/tree-ssa/phi_on_compare-4.c: Same.
* gcc.dg/tree-ssa/pr20701.c: Same.
* gcc.dg/tree-ssa/pr21001.c: Same.
* gcc.dg/tree-ssa/pr21294.c: Same.
* gcc.dg/tree-ssa/pr21417.c: Same.
* gcc.dg/tree-ssa/pr21559.c: Same.
* gcc.dg/tree-ssa/pr21563.c: Same.
* gcc.dg/tree-ssa/pr49039.c: Same.
* gcc.dg/tree-ssa/pr59597.c: Same.
* gcc.dg/tree-ssa/pr61839_1.c: Same.
* gcc.dg/tree-ssa/pr61839_3.c: Same.
* gcc.dg/tree-ssa/pr66752-3.c: Same.
* gcc.dg/tree-ssa/pr68198.c: Same.
* gcc.dg/tree-ssa/pr77445-2.c: Same.
* gcc.dg/tree-ssa/pr77445.c: Same.
* gcc.dg/tree-ssa/ranger-threader-1.c: Same.
* gcc.dg/tree-ssa/ranger-threader-2.c: Same.
* gcc.dg/tree-ssa/ranger-threader-4.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-1.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-11.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-12.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-14.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-16.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-2b.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-7.c: Same.
* gcc.dg/tree-ssa/ssa-thread-14.c: Same.
* gcc.dg/tree-ssa/ssa-thread-backedge.c: Same.
* gcc.dg/tree-ssa/ssa-vrp-thread-1.c: Same.
* gcc.dg/tree-ssa/vrp02.c: Same.
* gcc.dg/tree-ssa/vrp03.c: Same.
* gcc.dg/tree-ssa/vrp05.c: Same.
* gcc.dg/tree-ssa/vrp06.c: Same.
* gcc.dg/tree-ssa/vrp07.c: Same.
* gcc.dg/tree-ssa/vrp08.c: Same.
* gcc.dg/tree-ssa/vrp09.c: Same.
* gcc.dg/tree-ssa/vrp33.c: Same.
* gcc.dg/uninit-pred-9_b.c: Same.
* gcc.dg/uninit-pred-7_a.c: xfail.
I've found we claim to support non-rectangular loops, but don't actually
support those in Fortran, as can be seen on:
integer i, j
!$omp parallel do collapse(2)
do i = 0, 10
do j = 0, i
end do
end do
end
To support this, the Fortran FE needs to allow the valid forms of
non-rectangular loops and disallow others, so mainly it needs its
updated version of c-omp.c c_omp_check_loop_iv etc., plus for non-rectangular
lb or ub expressions emit a TREE_VEC instead of normal expression as the C/C++ FE
do, plus testsuite coverage.
2021-10-27 Jakub Jelinek <jakub@redhat.com>
* libgomp.texi (OpenMP 5.0): Mention that Non-rectangular loop nests
aren't implemented for Fortran yet.
This patch handles pointer iterators for non-rectangular loops. They are
more limited than integral iterators of non-rectangular loops, in particular
only var-outer, var-outer + a2, a2 + var-outer or var-outer - a2 can appear
in lb or ub where a2 is some integral loop invariant expression, so no e.g.
multiplication etc.
2021-10-27 Jakub Jelinek <jakub@redhat.com>
gcc/
* omp-expand.c (expand_omp_for_init_counts): Handle non-rectangular
iterators with pointer types.
(expand_omp_for_init_vars, extract_omp_for_update_vars): Likewise.
gcc/c-family/
* c-omp.c (c_omp_check_loop_iv_r): Don't clear 3rd bit for
POINTER_PLUS_EXPR.
(c_omp_check_nonrect_loop_iv): Handle POINTER_PLUS_EXPR.
(c_omp_check_loop_iv): Set kind even if the iterator is non-integral.
gcc/testsuite/
* c-c++-common/gomp/loop-8.c: New test.
* c-c++-common/gomp/loop-9.c: New test.
libgomp/
* testsuite/libgomp.c/loop-26.c: New test.
* testsuite/libgomp.c/loop-27.c: New test.
Some systems do not have <alloca.h> but provide alloca differently, e.g.
via stdlib.h. Do it like other testcases do and use __builtin_alloca.
libgomp/ChangeLog:
PR testsuite/102910
* testsuite/libgomp.oacc-c-c++-common/loop-gwv-2.c: Use __builtin_alloca
instead of #include <alloca.h> + alloca.
This implements strictly-structured blocks support for Fortran, as specified in
OpenMP 5.2. This now allows using a Fortran BLOCK construct as the body of most
OpenMP constructs, with a "!$omp end ..." ending directive optional for that
form.
gcc/fortran/ChangeLog:
* decl.c (gfc_match_end): Add COMP_OMP_STRICTLY_STRUCTURED_BLOCK case
together with COMP_BLOCK.
* parse.c (parse_omp_structured_block): Change return type to
'gfc_statement', add handling for strictly-structured block case, adjust
recursive calls to parse_omp_structured_block.
(parse_executable): Adjust calls to parse_omp_structured_block.
* parse.h (enum gfc_compile_state): Add
COMP_OMP_STRICTLY_STRUCTURED_BLOCK.
* trans-openmp.c (gfc_trans_omp_workshare): Add EXEC_BLOCK case
handling.
gcc/testsuite/ChangeLog:
* gfortran.dg/gomp/cancel-1.f90: Adjust testcase.
* gfortran.dg/gomp/nesting-3.f90: Adjust testcase.
* gfortran.dg/gomp/strictly-structured-block-1.f90: New test.
* gfortran.dg/gomp/strictly-structured-block-2.f90: New test.
* gfortran.dg/gomp/strictly-structured-block-3.f90: New test.
libgomp/ChangeLog:
* libgomp.texi (Support of strictly structured blocks in Fortran):
Adjust to 'Y'.
* testsuite/libgomp.fortran/task-reduction-16.f90: Adjust testcase.
This patch implements support for the in_reduction clause for Fortran.
It also includes more completion of the taskgroup construct inside the
Fortran front-end, thus allowing task_reduction to work for task and
target constructs.
gcc/fortran/ChangeLog:
* openmp.c (gfc_match_omp_clause_reduction): Add 'openmp_target' default
false parameter. Add 'always,tofrom' map for OMP_LIST_IN_REDUCTION case.
(gfc_match_omp_clauses): Add 'openmp_target' default false parameter,
adjust call to gfc_match_omp_clause_reduction.
(match_omp): Adjust call to gfc_match_omp_clauses
* trans-openmp.c (gfc_trans_omp_taskgroup): Add call to
gfc_match_omp_clause, create and return block.
gcc/ChangeLog:
* omp-low.c (omp_copy_decl_2): For !ctx, use record_vars to add new copy
as local variable.
(scan_sharing_clauses): Place copy of OMP_CLAUSE_IN_REDUCTION decl in
ctx->outer instead of ctx.
gcc/testsuite/ChangeLog:
* gfortran.dg/gomp/reduction4.f90: Adjust omp target in_reduction' scan
pattern.
libgomp/ChangeLog:
* testsuite/libgomp.fortran/target-in-reduction-1.f90: New test.
* testsuite/libgomp.fortran/target-in-reduction-2.f90: New test.
If GOMP_HAVE_EFFICIENT_ALIGNED_ALLOC is not defined, the intent was to
treat the split of the structure between first cacheline (64 bytes)
as mostly write-once, use afterwards and second cacheline as rw just
as an optimization. But as has been reported, with vectorization enabled
at -O2 it can now result in aligned vector 16-byte or larger stores.
When not having posix_memalign/aligned_alloc/memalign or other similar API,
alloc.c emulates it but it needs to allocate extra memory for the dynamic
realignment.
So, for the GOMP_HAVE_EFFICIENT_ALIGNED_ALLOC not defined case, this patch
stops using aligned (64) attribute in the middle of the structure and instead
inserts padding that puts the second half of the structure at offset 64 bytes.
And when GOMP_HAVE_EFFICIENT_ALIGNED_ALLOC is defined, usually it was allocated
as aligned, but for the orphaned case it could still be allocated just with
gomp_malloc without guaranteed proper alignment.
2021-10-20 Jakub Jelinek <jakub@redhat.com>
PR libgomp/102838
* libgomp.h (struct gomp_work_share_1st_cacheline): New type.
(struct gomp_work_share): Only use aligned(64) attribute if
GOMP_HAVE_EFFICIENT_ALIGNED_ALLOC is defined, otherwise just
add padding before lock to ensure lock is at offset 64 bytes
into the structure.
(gomp_workshare_struct_check1, gomp_workshare_struct_check2):
New poor man's static assertions.
* work.c (gomp_work_share_start): Use gomp_aligned_alloc instead of
gomp_malloc if GOMP_HAVE_EFFICIENT_ALIGNED_ALLOC.
There is a lot of fall-out from this patch, as there were many threading
tests that assumed the restrictions introduced by this patch were valid.
Some tests have merely shifted the threading to after loop
optimizations, but others ended up with no threading opportunities at
all. Surprisingly some tests ended up with more total threads. It was
a crapshoot all around.
On a postive note, there are 6 tests that no longer XFAIL, and one
guality test which now passes.
I felt a bit queasy about such a fundamental change wrt threading, so I
ran it through my callgrind test harness (.ii files from a bootstrap).
There was no change in overall compilation, DOM, or the VRP threaders.
However, there was a slight increase of 1.63% in the backward threader.
I'm pretty sure we could reduce this if we incorporated the restrictions
into their profitability code. This way we could stop the search when
we ran into one of these restrictions. Not sure it's worth it at this
point.
Tested on x86-64 Linux.
Co-authored-by: Richard Biener <rguenther@suse.de>
gcc/ChangeLog:
* tree-ssa-threadupdate.c (cancel_thread): Dump threading reason
on the same line as the threading cancellation.
(jt_path_registry::cancel_invalid_paths): Avoid rotating loops.
Avoid threading through loop headers where the path remains in the
loop.
libgomp/ChangeLog:
* testsuite/libgomp.graphite/force-parallel-5.c: Remove xfail.
gcc/testsuite/ChangeLog:
* gcc.dg/Warray-bounds-87.c: Remove xfail.
* gcc.dg/analyzer/pr94851-2.c: Remove xfail.
* gcc.dg/graphite/pr69728.c: Remove xfail.
* gcc.dg/graphite/scop-dsyr2k.c: Remove xfail.
* gcc.dg/graphite/scop-dsyrk.c: Remove xfail.
* gcc.dg/shrink-wrap-loop.c: Remove xfail.
* gcc.dg/loop-8.c: Adjust for new threading restrictions.
* gcc.dg/tree-ssa/ifc-20040816-1.c: Same.
* gcc.dg/tree-ssa/pr21559.c: Same.
* gcc.dg/tree-ssa/pr59597.c: Same.
* gcc.dg/tree-ssa/pr71437.c: Same.
* gcc.dg/tree-ssa/pr77445-2.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-4.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-7.c: Same.
* gcc.dg/vect/bb-slp-16.c: Same.
* gcc.dg/tree-ssa/ssa-dom-thread-6.c: Remove.
* gcc.dg/tree-ssa/ssa-dom-thread-18.c: Remove.
* gcc.dg/tree-ssa/ssa-dom-thread-2a.c: Remove.
* gcc.dg/tree-ssa/ssa-thread-invalid.c: New test.
If numa-domains is used with num-places count, sometimes the function
could create more places than requested and crash. This depended on the
content of /sys/devices/system/node/online file, e.g. if the file
contains
0-1,16-17
and all NUMA nodes contain at least one CPU in the cpuset of the program,
then numa_domains(2) or numa_domains(4) (or 5+) work fine while
numa_domains(1) or numa_domains(3) misbehave. I.e. the function was able
to stop after reaching limit on the , separators (or trivially at the end),
but not within in the ranges.
2021-10-18 Jakub Jelinek <jakub@redhat.com>
* config/linux/affinity.c (gomp_affinity_init_numa_domains): Add
&& gomp_places_list_len < count after nfirst <= nlast loop condition.
gfortran uses internally a different array descriptor ("gfc") as
Fortran 2018 alias TS291113 defines for C interoperability via
ISO_Fortran_binding.h ("CFI"). Hence, when calling a C function
from Fortran, it has to be converted in the callee - and if a
BIND(C) procedure is written in Fortran, the CFI argument has
to be converted to gfc in order work with the rest of the FE
code and the library calls.
Before this patch, part was handled in the FE generated code and
other parts in libgfortran. With this patch, all code is generated
and CFI is defined as proper type - visible in the debugger and to
the middle end - avoiding both alias issues and missed optimization
issues.
This patch also fixes issues like: intent(out) deallocation in
the bind(C) callee, using the CFI descriptor also for allocatable
and pointer scalars and for len=* character strings.
For 'select rank', it also optimizes the code + avoid accessing
uninitialized memory if the dummy argument is allocatable/a pointer.
It additionally rejects passing a descriptorless type(*) to an
assumed-rank dummy argument. [F2018:C711]
PR fortran/102086
PR fortran/92189
PR fortran/92621
PR fortran/101308
PR fortran/101309
PR fortran/101635
PR fortran/92482
gcc/fortran/ChangeLog:
* decl.c (gfc_verify_c_interop_param): Remove 'sorry' for
scalar allocatable/pointer and len=*.
* expr.c (is_CFI_desc): Return true for for those.
* gfortran.h (CFI_type_kind_shift, CFI_type_mask,
CFI_type_from_type_kind, CFI_VERSION, CFI_MAX_RANK,
CFI_attribute_pointer, CFI_attribute_allocatable,
CFI_attribute_other, CFI_type_Integer, CFI_type_Logical,
CFI_type_Real, CFI_type_Complex, CFI_type_Character,
CFI_type_ucs4_char, CFI_type_struct, CFI_type_cptr,
CFI_type_cfunptr, CFI_type_other): New #define.
* trans-array.c (CFI_FIELD_BASE_ADDR, CFI_FIELD_ELEM_LEN,
CFI_FIELD_VERSION, CFI_FIELD_RANK, CFI_FIELD_ATTRIBUTE,
CFI_FIELD_TYPE, CFI_FIELD_DIM, CFI_DIM_FIELD_LOWER_BOUND,
CFI_DIM_FIELD_EXTENT, CFI_DIM_FIELD_SM,
gfc_get_cfi_descriptor_field, gfc_get_cfi_desc_base_addr,
gfc_get_cfi_desc_elem_len, gfc_get_cfi_desc_version,
gfc_get_cfi_desc_rank, gfc_get_cfi_desc_type,
gfc_get_cfi_desc_attribute, gfc_get_cfi_dim_item,
gfc_get_cfi_dim_lbound, gfc_get_cfi_dim_extent, gfc_get_cfi_dim_sm):
New define/functions to access the CFI array descriptor.
(gfc_conv_descriptor_type): New function for the GFC descriptor.
(gfc_get_array_span): Handle expr of CFI descriptors and
assumed-type descriptors.
(gfc_trans_array_bounds): Remove 'static'.
(gfc_conv_expr_descriptor): For assumed type, use the dtype of
the actual argument.
(structure_alloc_comps): Remove ' ' inside tabs.
* trans-array.h (gfc_trans_array_bounds, gfc_conv_descriptor_type,
gfc_get_cfi_desc_base_addr, gfc_get_cfi_desc_elem_len,
gfc_get_cfi_desc_version, gfc_get_cfi_desc_rank,
gfc_get_cfi_desc_type, gfc_get_cfi_desc_attribute,
gfc_get_cfi_dim_lbound, gfc_get_cfi_dim_extent, gfc_get_cfi_dim_sm):
New prototypes.
* trans-decl.c (gfor_fndecl_cfi_to_gfc, gfor_fndecl_gfc_to_cfi):
Remove global vars.
(gfc_build_builtin_function_decls): Remove their initialization.
(gfc_get_symbol_decl, create_function_arglist,
gfc_trans_deferred_vars): Update for CFI.
(convert_CFI_desc): Remove and replace by ...
(gfc_conv_cfi_to_gfc): ... this function
(gfc_generate_function_code): Call it; create local GFC var for CFI.
* trans-expr.c (gfc_maybe_dereference_var): Handle CFI.
(gfc_conv_subref_array_arg): Handle the if-noncontigous-only copy in
when the result should be a descriptor.
(gfc_conv_gfc_desc_to_cfi_desc): Completely rewritten.
(gfc_conv_procedure_call): CFI fixes.
* trans-openmp.c (gfc_omp_is_optional_argument,
gfc_omp_check_optional_argument): Handle optional
CFI.
* trans-stmt.c (gfc_trans_select_rank_cases): Cleanup, avoid invalid
code for allocatable/pointer dummies, which cannot be assumed size.
* trans-types.c (gfc_cfi_descriptor_base): New global var.
(gfc_get_dtype_rank_type): Skip rank init for rank < 0.
(gfc_sym_type): Handle CFI dummies.
(gfc_get_function_type): Update call.
(gfc_get_cfi_dim_type, gfc_get_cfi_type): New.
* trans-types.h (gfc_sym_type): Update prototype.
(gfc_get_cfi_type): New prototype.
* trans.c (gfc_trans_runtime_check): Make conditions more consistent
to avoid '<logical> AND_THEN <long int>' in conditions.
* trans.h (gfor_fndecl_cfi_to_gfc, gfor_fndecl_gfc_to_cfi): Remove
global-var declaration.
libgfortran/ChangeLog:
* ISO_Fortran_binding.h (CFI_type_cfunptr): Make unique type again.
* runtime/ISO_Fortran_binding.c (cfi_desc_to_gfc_desc,
gfc_desc_to_cfi_desc): Add comment that those are no longer called
by new code.
libgomp/ChangeLog:
* testsuite/libgomp.fortran/optional-bind-c.f90: New test.
gcc/testsuite/ChangeLog:
* gfortran.dg/ISO_Fortran_binding_4.f90: Extend testcase.
* gfortran.dg/PR100914.f90: Remove xfail.
* gfortran.dg/PR100915.c: Expect CFI_type_cfunptr.
* gfortran.dg/PR100915.f90: Handle CFI_type_cfunptr != CFI_type_cptr.
* gfortran.dg/PR93963.f90: Extend select-rank tests.
* gfortran.dg/bind-c-intent-out.f90: Change to dg-do run,
update scan-dump.
* gfortran.dg/bind_c_array_params_2.f90: Update/extend scan-dump.
* gfortran.dg/bind_c_char_10.f90: Update scan-dump.
* gfortran.dg/bind_c_char_8.f90: Remove dg-error "sorry".
* gfortran.dg/c-interop/allocatable-dummy.f90: Remove xfail.
* gfortran.dg/c-interop/c1255-1.f90: Likewise.
* gfortran.dg/c-interop/c407c-1.f90: Update dg-error.
* gfortran.dg/c-interop/cf-descriptor-5.f90: Remove xfail.
* gfortran.dg/c-interop/cf-out-descriptor-3.f90: Likewise.
* gfortran.dg/c-interop/cf-out-descriptor-4.f90: Likewise.
* gfortran.dg/c-interop/cf-out-descriptor-5.f90: Likewise.
* gfortran.dg/c-interop/contiguous-2.f90: Likewise.
* gfortran.dg/c-interop/contiguous-3.f90: Likewise.
* gfortran.dg/c-interop/deferred-character-1.f90: Likewise.
* gfortran.dg/c-interop/deferred-character-2.f90: Likewise.
* gfortran.dg/c-interop/fc-descriptor-3.f90: Likewise.
* gfortran.dg/c-interop/fc-descriptor-5.f90: Likewise.
* gfortran.dg/c-interop/fc-descriptor-6.f90: Likewise.
* gfortran.dg/c-interop/fc-out-descriptor-3.f90: Likewise.
* gfortran.dg/c-interop/fc-out-descriptor-4.f90: Likewise.
* gfortran.dg/c-interop/fc-out-descriptor-5.f90: Likewise.
* gfortran.dg/c-interop/fc-out-descriptor-6.f90: Likewise.
* gfortran.dg/c-interop/ff-descriptor-5.f90: Likewise.
* gfortran.dg/c-interop/ff-descriptor-6.f90: Likewise.
* gfortran.dg/c-interop/fc-descriptor-7.f90: Remove xfail + extend.
* gfortran.dg/c-interop/fc-descriptor-7-c.c: Update for changes.
* gfortran.dg/c-interop/shape.f90: Add implicit none.
* gfortran.dg/c-interop/typecodes-array-char-c.c: Add kind=4 char.
* gfortran.dg/c-interop/typecodes-array-char.f90: Likewise.
* gfortran.dg/c-interop/typecodes-array-float128.f90: Remove xfail.
* gfortran.dg/c-interop/typecodes-scalar-basic.f90: Likewise.
* gfortran.dg/c-interop/typecodes-scalar-float128.f90: Likewise.
* gfortran.dg/c-interop/typecodes-scalar-int128.f90: Likewise.
* gfortran.dg/c-interop/typecodes-scalar-longdouble.f90: Likewise.
* gfortran.dg/iso_c_binding_char_1.f90: Remove dg-error "sorry".
* gfortran.dg/pr93792.f90: Turn XFAIL into PASS.
* gfortran.dg/ISO_Fortran_binding_19.f90: New test.
* gfortran.dg/assumed_type_12.f90: New test.
* gfortran.dg/assumed_type_13.c: New test.
* gfortran.dg/assumed_type_13.f90: New test.
* gfortran.dg/bind-c-char-descr.f90: New test.
* gfortran.dg/bind-c-contiguous-1.c: New test.
* gfortran.dg/bind-c-contiguous-1.f90: New test.
* gfortran.dg/bind-c-contiguous-2.f90: New test.
* gfortran.dg/bind-c-contiguous-3.c: New test.
* gfortran.dg/bind-c-contiguous-3.f90: New test.
* gfortran.dg/bind-c-contiguous-4.c: New test.
* gfortran.dg/bind-c-contiguous-4.f90: New test.
* gfortran.dg/bind-c-contiguous-5.c: New test.
* gfortran.dg/bind-c-contiguous-5.f90: New test.
I've noticed that while I have added hopefully sufficient test coverage
for the case where one uses simple number or !number as p-interval,
I haven't added any coverage for number:len:stride or number:len.
This patch adds that.
2021-10-15 Jakub Jelinek <jakub@redhat.com>
* testsuite/libgomp.c/affinity-1.c (struct places): Change name field
type from char [50] to const char *.
(places_array): Add a testcase for simplified syntax place followed
by length or length and stride.
In addition to adding ll_caches and numa_domain abstract names
to OMP_PLACES syntax, OpenMP 5.1 also added one syntax simplification:
https://github.com/OpenMP/spec/issues/2080https://github.com/OpenMP/spec/pull/2081
in particular that in the grammar place non-terminal is now
not only { res-list } but also res (i.e. a non-negative integer),
which stands as a shortcut for { res }
So, one can specify OMP_PLACES=0,4,8,12 with the meaning
OMP_PLACES={0},{4},{8},{12} or OMP_PLACES=0:4 instead of OMP_PLACES={0}:4
or OMP_PLACES={0},{1},{2},{3} etc.
This patch implements that.
2021-10-15 Jakub Jelinek <jakub@redhat.com>
* env.c (parse_one_place): Handle non-negative-number the same
as { non-negative-number }. Reject even !number:1 and
!number:1:stride or !place:1 or !place:1:stride instead of just
length other than 1.
* libgomp.texi (OpenMP 5.1): Document OMP_PLACES syntax extensions
and OMP_NUM_TEAMS/OMP_TEAMS_THREAD_LIMIT and
omp_{set_num,get_max}_teams/omp_{s,g}et_teams_thread_limit features
as implemented.
* testsuite/libgomp.c/affinity-1.c: Add a test for the 5.1 place
simplified syntax.
Yesterday when working on numa_domains, I've noticed because of a bug
in my patch a hang on a large NUMA machine. I've fixed the bug, but
also discovered that the hang was a result of making wrong assumptions
about strtoul/strtoull. All the uses were for portability setting
errno = 0 before the calls and treating non-zero errno after the call
as invalid input, but for the case where there are no valid digits at
all strtoul may set errno to EINVAL, but doesn't have to and with
glibc doesn't do that. So, this patch goes through all the strtoul calls
and next to errno != 0 checks adds also endptr == startptr check.
Haven't done it in places where we immediately reject strtoul returning 0
the same as we reject errno != 0, because strtoul must return 0 in the
case where it sets endptr to the start pointer. In some spots the code
was using errno = 0; x = strtoul (p, &p, 10); if (errno) { /*invalid*/ }
and those spots had to be changed to
errno = 0; x = strtoul (p, &end, 10); if (errno || end == p) { /*invalid*/ }
p = end;
2021-10-15 Jakub Jelinek <jakub@redhat.com>
* env.c (parse_schedule): For strtoul or strtoull calls which don't
clearly reject return value 0 as invalid handle the case where end
pointer is the same as first argument as invalid.
(parse_unsigned_long_1): Likewise.
(parse_one_place): Likewise.
(parse_places_var): Likewise.
(parse_stacksize): Likewise.
(parse_spincount): Likewise.
(parse_affinity): Likewise.
(parse_gomp_openacc_dim): Likewise. Avoid strict aliasing violation.
Make code valid C89.
* config/linux/affinity.c (gomp_affinity_find_last_cache_level):
For strtoul calls which don't clearly reject return value 0 as
invalid handle the case where end pointer is the same as first
argument as invalid.
(gomp_affinity_init_level_1): Likewise.
(gomp_affinity_init_numa_domains): Likewise.
* config/rtems/proc.c (parse_thread_pools): Likewise.
When writing the places-*.c tests, I've noticed that we mishandle threads
abstract name with specified num-places if num-places isn't a multiple of
number of hw threads in a core. It then happily ignores the maximum count
and overwrites for the remaining hw threads in a core further places that
haven't been allocated.
2021-10-15 Jakub Jelinek <jakub@redhat.com>
* config/linux/affinity.c (gomp_affinity_init_level_1): For level 1
after creating count places clean up and return immediately.
* testsuite/libgomp.c/places-6.c: New test.
* testsuite/libgomp.c/places-7.c: New test.
* testsuite/libgomp.c/places-8.c: New test.
* testsuite/libgomp.c/places-9.c: New test.
* testsuite/libgomp.c/places-10.c: New test.
This adds support for numa_domains abstract name in OMP_PLACES, also new
in OpenMP 5.1.
Way to test this is
OMP_PLACES=numa_domains OMP_DISPLAY_ENV=true LD_PRELOAD=.libs/libgomp.so.1 /bin/true
and see what it prints on OMP_PLACES line.
For non-NUMA machines it should print a single place that covers all CPUs,
for NUMA machine one place for each NUMA node with corresponding CPUs.
2021-10-15 Jakub Jelinek <jakub@redhat.com>
* env.c (parse_places_var): Handle numa_domains as level 5.
* config/linux/affinity.c (gomp_affinity_init_numa_domains): New
function.
(gomp_affinity_init_level): Use it instead of
gomp_affinity_init_level_1 for level == 5.
* testsuite/libgomp.c/places-5.c: New test.
This patch implements support for ll_caches abstract name in OMP_PLACES,
which stands for places where logical cpus in each place share the last
level cache.
This seems to work fine for me on x86 and kernel sources show that it is
in common code, but on some machines on CompileFarm the files I'm using,
i.e.
/sys/devices/system/cpu/cpuN/cache/indexN/level
/sys/devices/system/cpu/cpuN/cache/indexN/shared_cpu_list
don't exist, is that because they have too old kernel and newer kernels
are fine or should I implement some fallback methods (which)?
E.g. on gcc112.fsffrance.org I see just shared_cpu_map and not shared_cpu_list
(with shared_cpu_map being harder to parse) and on another box I didn't even
see the cache subdirectories.
Way to test this is
OMP_PLACES=ll_caches OMP_DISPLAY_ENV=true LD_PRELOAD=.libs/libgomp.so.1 /bin/true
and see what it prints on OMP_PLACES line.
2021-10-15 Jakub Jelinek <jakub@redhat.com>
* env.c (parse_places_var): Handle ll_caches as level 4.
* config/linux/affinity.c (gomp_affinity_find_last_cache_level): New
function.
(gomp_affinity_init_level_1): Handle level 4 as logical cpus sharing
last level cache.
(gomp_affinity_init_level): Likewise.
* testsuite/libgomp.c/places-1.c: New test.
* testsuite/libgomp.c/places-2.c: New test.
* testsuite/libgomp.c/places-3.c: New test.
* testsuite/libgomp.c/places-4.c: New test.
This patch releases the device lock on a sanity-checking error path in
transfer combining (cbuf) handling in libgomp:target.c. This shouldn't
happen when handling well-formed mapping clauses, but erroneous clauses
can currently cause a hang if the condition triggers.
2021-12-10 Julian Brown <julian@codesourcery.com>
libgomp/
* target.c (gomp_copy_host2dev): Release device lock on cbuf
error path.
This adds the Fortran testsuite coverage of
omp_{get_max,set_num}_threads and omp_{s,g}et_teams_thread_limit
libgomp/
* testsuite/libgomp.fortran/icv-3.f90: New.
* testsuite/libgomp.fortran/icv-4.f90: New.
This patch adds documentation for these new OpenMP 5.1 APIs as well as
two new environment variables - OMP_NUM_TEAMS and OMP_TEAMS_THREAD_LIMIT.
2021-10-12 Jakub Jelinek <jakub@redhat.com>
* libgomp.texi (omp_get_max_teams, omp_get_teams_thread_limit,
omp_set_num_teams, omp_set_teams_thread_limit, OMP_NUM_TEAMS,
OMP_TEAMS_THREAD_LIMIT): Document.
When building libgomp documentation, I see
makeinfo --split-size=5000000 -I ../../../libgomp/../gcc/doc/include -I ../../../libgomp -o libgomp.info ../../../libgomp/libgomp.texi
../../../libgomp/libgomp.texi:503: warning: node next `omp_get_default_device' in menu `omp_get_device_num' and in sectioning `omp_get_dynamic' differ
../../../libgomp/libgomp.texi:528: warning: node prev `omp_get_dynamic' in menu `omp_get_device_num' and in sectioning `omp_get_default_device' differ
../../../libgomp/libgomp.texi:560: warning: node next `omp_get_initial_device' in menu `omp_get_level' and in sectioning `omp_get_device_num' differ
../../../libgomp/libgomp.texi:587: warning: node next `omp_get_device_num' in menu `omp_get_dynamic' and in sectioning `omp_get_level' differ
../../../libgomp/libgomp.texi:587: warning: node prev `omp_get_device_num' in menu `omp_get_default_device' and in sectioning `omp_get_initial_device' differ
../../../libgomp/libgomp.texi:615: warning: node prev `omp_get_level' in menu `omp_get_initial_device' and in sectioning `omp_get_device_num' differ
warnings. This patch fixes those.
2021-10-12 Jakub Jelinek <jakub@redhat.com>
* libgomp.texi (omp_get_device_num): Move @node before omp_get_dynamic
to avoid makeinfo warnings.
This adds (C/C++ only) testsuite coverage for these new OpenMP 5.1 APIs.
2021-10-12 Jakub Jelinek <jakub@redhat.com>
* testsuite/libgomp.c-c++-common/icv-3.c: New test.
* testsuite/libgomp.c-c++-common/icv-4.c: New test.
As reported, the alloc-9.c test and alloc-{1,2,3}.F* and alloc-11.f90
tests fail on powerpc64-linux with -m32.
The reason why it fails just there is that malloc doesn't guarantee there
128-bit alignment (historically glibc guaranteed 2 * sizeof (void *)
alignment from malloc).
There are two separate issues.
One is a thinko on my side.
In this part of alloc-9.c test (copied to alloc-11.f90), we have
2 allocators, a with pool size 1024B and alignment 16B and default fallback
and a2 with pool size 512B and alignment 32B and a as fallback allocator.
We start at no allocations in both at line 194 and do:
p = (int *) omp_alloc (sizeof (int), a2);
// This succeeds in a2 and needs 4+overhead bytes (which includes the 32B alignment)
p = (int *) omp_realloc (p, 420, a, a2);
// This allocates 420 bytes+overhead in a, with 16B alignment and deallocates the above
q = (int *) omp_alloc (sizeof (int), a);
// This allocates 4+overhead bytes in a, with 16B alignment
q = (int *) omp_realloc (q, 420, a2, a);
// This allocates 420+overhead in a2 with 32B alignment
q = (int *) omp_realloc (q, 768, a2, a2);
// This attempts to reallocate, but as there are elevated alignment
// requirements doesn't try to just realloc (even if it wanted to try that
// a2 is almost full, with 512-420-overhead bytes left in it), so it
// tries to alloc in a2, but there is no space left in the pool, falls
// back to a, which already has 420+overhead bytes allocated in it and
// 1024-420-overhead bytes left and so fails too and fails to default
// non-pool allocator that allocates it, but doesn't guarantee alignment
// higher than malloc guarantees.
// But, the test expected 16B alignment.
So, I've slightly lowered the allocation sizes in that part of the test
420->320 and 768 -> 568, so that the last test still fails to allocate
in a2 (568 > 512-320-overhead) but succeeds in a as fallback, which was
the intent of the test.
Another thing is that alloc-1.F90 seems to be transcription of
libgomp.c-c++-common/alloc-1.c into Fortran, but alloc-1.c had:
q = (int *) omp_alloc (768, a2);
if ((((uintptr_t) q) % 16) != 0)
abort ();
q[0] = 7;
q[767 / sizeof (int)] = 8;
r = (int *) omp_alloc (512, a2);
if ((((uintptr_t) r) % __alignof (int)) != 0)
abort ();
there but Fortran has:
cq = omp_alloc (768_c_size_t, a2)
if (mod (transfer (cq, intptr), 16_c_intptr_t) /= 0) stop 12
call c_f_pointer (cq, q, [768 / c_sizeof (i)])
q(1) = 7
q(768 / c_sizeof (i)) = 8
cr = omp_alloc (512_c_size_t, a2)
if (mod (transfer (cr, intptr), 16_c_intptr_t) /= 0) stop 13
I'm changing the latter to 4_c_intptr_t because other spots in the
testcase do that, Fortran sadly doesn't have c_alignof, but strictly
speaking it isn't correct, __alignof (int) could be on some architectures
smaller than 4.
So probably alloc-1.F90 etc. should also have
! { dg-additional-sources alloc-7.c }
! { dg-prune-output "command-line option '-fintrinsic-modules-path=.*' is valid for Fortran but not for C" }
and use get__alignof_int.
2021-10-12 Jakub Jelinek <jakub@redhat.com>
PR libgomp/102628
PR libgomp/102668
* testsuite/libgomp.c-c++-common/alloc-9.c (main): Decrease
allocation sizes from 420 to 320 and from 768 to 568.
* testsuite/libgomp.fortran/alloc-11.f90: Likewise.
* testsuite/libgomp.fortran/alloc-1.F90: Change expected alignment
for cr from 16 to 4.
> * testsuite/libgomp.c++/scan-10.C: Add option -fvect-cost-model=cheap.
I don't think this is the right thing to do.
This just means that at some point between 2013 when -fsimd-cost-model has
been introduced and now -fsimd-cost-model= option at least partially stopped
working properly.
As documented, -fsimd-cost-model= overrides the -fvect-cost-model= setting
for OpenMP simd loops (loop->force_vectorize is true) if specified differently
from default.
In tree-vectorizer.h we have:
static inline bool
unlimited_cost_model (loop_p loop)
{
if (loop != NULL && loop->force_vectorize
&& flag_simd_cost_model != VECT_COST_MODEL_DEFAULT)
return flag_simd_cost_model == VECT_COST_MODEL_UNLIMITED;
return (flag_vect_cost_model == VECT_COST_MODEL_UNLIMITED);
}
and use it in various places, but we also just use flag_vect_cost_model
in lots of places (and in one spot use flag_simd_cost_model, not sure if
we are sure it is a force_vectorize loop or what).
So, IMHO we should change the above inline function to
loop_cost_model and let it return the cost model and then just
reimplement unlimited_cost_model as
return loop_cost_model (loop) == VECT_COST_MODEL_UNLIMITED;
and then adjust the direct uses of the flag and revert these changes.
2021-10-12 Jakub Jelinek <jakub@redhat.com>
gcc/
* tree-vectorizer.h (loop_cost_model): New function.
(unlimited_cost_model): Use it.
* tree-vect-loop.c (vect_analyze_loop_costing): Use loop_cost_model
call instead of flag_vect_cost_model.
* tree-vect-data-refs.c (vect_enhance_data_refs_alignment): Likewise.
(vect_prune_runtime_alias_test_list): Likewise. Also use it instead
of flag_simd_cost_model.
gcc/testsuite/
* gcc.dg/gomp/simd-2.c: Remove option -fvect-cost-model=cheap.
* gcc.dg/gomp/simd-3.c: Likewise.
libgomp/
* testsuite/libgomp.c/scan-11.c: Remove option -fvect-cost-model=cheap.
* testsuite/libgomp.c/scan-12.c: Likewise.
* testsuite/libgomp.c/scan-13.c: Likewise.
* testsuite/libgomp.c/scan-14.c: Likewise.
* testsuite/libgomp.c/scan-15.c: Likewise.
* testsuite/libgomp.c/scan-16.c: Likewise.
* testsuite/libgomp.c/scan-17.c: Likewise.
* testsuite/libgomp.c/scan-18.c: Likewise.
* testsuite/libgomp.c/scan-19.c: Likewise.
* testsuite/libgomp.c/scan-20.c: Likewise.
* testsuite/libgomp.c/scan-21.c: Likewise.
* testsuite/libgomp.c/scan-22.c: Likewise.
* testsuite/libgomp.c++/scan-9.C: Likewise.
* testsuite/libgomp.c++/scan-10.C: Likewise.
* testsuite/libgomp.c++/scan-11.C: Likewise.
* testsuite/libgomp.c++/scan-12.C: Likewise.
* testsuite/libgomp.c++/scan-13.C: Likewise.
* testsuite/libgomp.c++/scan-14.C: Likewise.
* testsuite/libgomp.c++/scan-15.C: Likewise.
* testsuite/libgomp.c++/scan-16.C: Likewise.
This issue was observed in rs6000 specific PR102658 as well.
I've looked into it a bit, it's caused by the "conditional store replacement" which
is originally disabled without vectorization as below code.
/* If either vectorization or if-conversion is disabled then do
not sink any stores. */
if (param_max_stores_to_sink == 0
|| (!flag_tree_loop_vectorize && !flag_tree_slp_vectorize)
|| !flag_tree_loop_if_convert)
return false;
The new change makes the innermost loop look like
for (int c1 = 0; c1 <= 1499; c1 += 1) {
if (c1 <= 500) {
S_10(c0, c1);
} else {
S_9(c0, c1);
}
S_11(c0, c1);
}
and can not be splitted as:
for (int c1 = 0; c1 <= 500; c1 += 1)
S_10(c0, c1);
for (int c1 = 501; c1 <= 1499; c1 += 1)
S_9(c0, c1);
So instead of disabling vectorization, could we just disable this cs replacement
with parameter "--param max-stores-to-sink=0"?
I tested this proposal on ppc64le, it should work as well.
2021-10-11 Kewen Lin <linkw@linux.ibm.com>
libgomp/ChangeLog:
* testsuite/libgomp.graphite/force-parallel-8.c: Add --param max-stores-to-sink=0.
The variable omp_atv_sequential was replaced by omp_atv_serialized in OpenMP
5.1. This was already implemented by Jakub (C/C++, commit ea82325afe) and
Tobias (Fortran, commit fff15bad1a).
This patch adds two tests to check if omp_atv_serialized is available (one test
for C/C++ and one for Fortran). Besides that omp_atv_sequential is marked as
deprecated in C/C++ and Fortran for OpenMP 5.1.
libgomp/ChangeLog:
* allocator.c (omp_init_allocator): Replace omp_atv_sequential with
omp_atv_serialized.
* omp.h.in: Add deprecated flag for omp_atv_sequential.
* omp_lib.f90.in: Add deprecated flag for omp_atv_sequential.
* testsuite/libgomp.c-c++-common/alloc-10.c: New test.
* testsuite/libgomp.fortran/alloc-12.f90: New test.
OpenMP 5.1 adds env vars and functions to set and query new ICVs used
as fallback if thread_limit or num_teams clauses aren't specified on
teams construct.
The following patch implements those, though further work will be needed:
1) OpenMP 5.1 also changed the num_teams clause, so that it can specify
both lower and upper limit for how many teams should be created and
changed the meaning when only one expression is provided, instead of
num_teams(expr) in 5.0 meaning num_teams(1:expr) in 5.1, it now means
num_teams(expr:expr), i.e. while previously we could create 1 to expr
teams, in 5.1 we have some low limit by default equal to the single
expression provided and may not create fewer teams.
For host teams (which we don't currently implement efficiently for
NUMA hosts) we trivially satisfy it now by always honoring what the
user asked for, but for the offloading teams I think we'll need to
rethink the APIs; currently teams construct is just a call that returns
and possibly lowers the number of teams; and whenever possible we try
to evaluate num_teams/thread_limit already on the target construct
and the GOMP_teams call just sets the number of teams to the minimum
of provided and requested teams; for some cases e.g. where target
is not combined with teams and num_teams expression calls some functions
etc., we need to call those functions in the target region and so it is
late to figure number of teams, but also hw could just limit what it
is willing to create; in that case I'm afraid we need to run the target
body multiple times and arrange for omp_get_team_num () returning the
right values
2) we need to finally implement the NUMA handling for GOMP_teams_reg
3) I now realize I haven't added some testcase coverage, will do that
incrementally
4) libgomp.texi needs updates for these new APIs, but also others like
the allocator
2021-10-11 Jakub Jelinek <jakub@redhat.com>
gcc/
* omp-low.c (omp_runtime_api_call): Handle omp_get_max_teams,
omp_[sg]et_teams_thread_limit and omp_set_num_teams.
libgomp/
* omp.h.in (omp_set_num_teams, omp_get_max_teams,
omp_set_teams_thread_limit, omp_get_teams_thread_limit): Declare.
* omp_lib.f90.in (omp_set_num_teams, omp_get_max_teams,
omp_set_teams_thread_limit, omp_get_teams_thread_limit): Declare.
* omp_lib.h.in (omp_set_num_teams, omp_get_max_teams,
omp_set_teams_thread_limit, omp_get_teams_thread_limit): Declare.
* libgomp.h (gomp_nteams_var, gomp_teams_thread_limit_var): Declare.
* libgomp.map (OMP_5.1): Export omp_get_max_teams{,_},
omp_get_teams_thread_limit{,_}, omp_set_num_teams{,_,_8_} and
omp_set_teams_thread_limit{,_,_8_}.
* icv.c (omp_set_num_teams, omp_get_max_teams,
omp_set_teams_thread_limit, omp_get_teams_thread_limit): New
functions.
* env.c (gomp_nteams_var, gomp_teams_thread_limit_var): Define.
(omp_display_env): Print OMP_NUM_TEAMS and OMP_TEAMS_THREAD_LIMIT.
(initialize_env): Handle OMP_NUM_TEAMS and OMP_TEAMS_THREAD_LIMIT env
vars.
* teams.c (GOMP_teams_reg): If thread_limit is not specified, use
gomp_teams_thread_limit_var as fallback if not zero. If num_teams
is not specified, use gomp_nteams_var.
* fortran.c (omp_set_num_teams, omp_get_max_teams,
omp_set_teams_thread_limit, omp_get_teams_thread_limit): Add
ialias_redirect.
(omp_set_num_teams_, omp_set_num_teams_8_, omp_get_max_teams_,
omp_set_teams_thread_limit_, omp_set_teams_thread_limit_8_,
omp_get_teams_thread_limit_): New functions.
Related to this is the addition of structured-block-sequence in OpenMP 5.1,
which doesn't change anything for Fortran, but for C/C++ allows multiple
statements instead of just one possibly compound around the separating
directives (section and scan).
I've also made some updates to the OpenMP 5.1 support list in libgomp.texi.
2021-10-09 Jakub Jelinek <jakub@redhat.com>
gcc/c/
* c-parser.c (c_parser_omp_structured_block_sequence): New function.
(c_parser_omp_scan_loop_body): Use it.
(c_parser_omp_sections_scope): Likewise.
gcc/cp/
* parser.c (cp_parser_omp_structured_block): Remove disallow_omp_attrs
argument.
(cp_parser_omp_structured_block_sequence): New function.
(cp_parser_omp_scan_loop_body): Use it.
(cp_parser_omp_sections_scope): Likewise.
gcc/testsuite/
* c-c++-common/gomp/sections1.c (foo): Don't expect errors on
multiple statements in between section directive(s). Add testcases
for invalid no statements in between section directive(s).
* gcc.dg/gomp/sections-2.c (foo): Don't expect errors on
multiple statements in between section directive(s).
* g++.dg/gomp/sections-2.C (foo): Likewise.
* g++.dg/gomp/attrs-6.C (foo): Add testcases for multiple
statements in between section directive(s).
(bar): Add testcases for multiple statements in between scan
directive.
* g++.dg/gomp/attrs-7.C (bar): Adjust expected error recovery.
libgomp/
* libgomp.texi (OpenMP 5.1): Mention implemented support for
structured block sequences in C/C++. Mention support for
unconstrained/reproducible modifiers on order clause.
Mention partial (C/C++ only) support of extentensions to atomics
construct. Mention partial (C/C++ on clause only) support of
align/allocator modifiers on allocate clause.
libgomp/ChangeLog:
* testsuite/libgomp.fortran/order-reproducible-1.f90: New test
based on libgomp.c-c++-common/order-reproducible-1.c.
* testsuite/libgomp.fortran/order-reproducible-2.f90: Likewise.
* testsuite/libgomp.fortran/my-usleep.c: New test.
libgomp/ChangeLog:
* testsuite/libgomp.fortran/alloc-10.f90: Fix alignment check.
* testsuite/libgomp.fortran/alloc-7.f90: Fix array access.
* testsuite/libgomp.fortran/alloc-8.f90: Likewise.
* testsuite/libgomp.fortran/alloc-11.f90: New test for omp_realloc,
based on libgomp.c-c++-common/alloc-9.c.
While OpenMP 5.1 implies order(concurrent) is the same thing as
order(reproducible:concurrent), this is going to change in OpenMP 5.2, where
essentially order(concurrent) means nothing is stated on whether it is
reproducible or unconstrained (and is determined by other means, e.g. for/do
with schedule static or runtime with static being selected is implicitly
reproducible, distribute with dist_schedule static is implicitly reproducible,
loop is implicitly reproducible) and when the modifier is specified explicitly,
it overrides the implicit behavior either way.
And, when order(reproducible:concurrent) is used with e.g. schedule(dynamic)
or some other schedule that is by definition not reproducible, it is
implementation's duty to ensure it is reproducible, either by remembering how
it scheduled some loop and then replaying the same schedule when seeing loops
with the same directive/schedule/number of iterations, or by overriding the
schedule to some reproducible one.
This patch doesn't implement the 5.2 wording just yet, but in the FEs
differentiates between the 3 states - no explicit modifier, explicit reproducible
or explicit unconstrainted, so that the middle-end can easily switch any time.
Instead it follows the 5.1 wording where both order(concurrent) (implicit or
explicit) or order(reproducible:concurrent) imply reproducibility.
And, it implements the easier method, when for/do should be reproducible, it
just chooses static schedule. order(concurrent) implies no OpenMP APIs in the
loop body nor threadprivate vars, so the exact scheduling isn't (easily at least)
observable.
2021-10-01 Jakub Jelinek <jakub@redhat.com>
gcc/
* tree.h (OMP_CLAUSE_ORDER_REPRODUCIBLE): Define.
* tree-pretty-print.c (dump_omp_clause) <case OMP_CLAUSE_ORDER>: Print
reproducible: for OMP_CLAUSE_ORDER_REPRODUCIBLE.
* omp-general.c (omp_extract_for_data): If OMP_CLAUSE_ORDER is seen
without OMP_CLAUSE_ORDER_UNCONSTRAINED, overwrite sched_kind to
OMP_CLAUSE_SCHEDULE_STATIC.
gcc/c-family/
* c-omp.c (c_omp_split_clauses): Also copy
OMP_CLAUSE_ORDER_REPRODUCIBLE.
gcc/c/
* c-parser.c (c_parser_omp_clause_order): Set
OMP_CLAUSE_ORDER_REPRODUCIBLE for explicit reproducible: modifier.
gcc/cp/
* parser.c (cp_parser_omp_clause_order): Set
OMP_CLAUSE_ORDER_REPRODUCIBLE for explicit reproducible: modifier.
gcc/fortran/
* gfortran.h (gfc_omp_clauses): Add order_reproducible bitfield.
* dump-parse-tree.c (show_omp_clauses): Print REPRODUCIBLE: for it.
* openmp.c (gfc_match_omp_clauses): Set order_reproducible for
explicit reproducible: modifier.
* trans-openmp.c (gfc_trans_omp_clauses): Set
OMP_CLAUSE_ORDER_REPRODUCIBLE for order_reproducible.
(gfc_split_omp_clauses): Also copy order_reproducible.
gcc/testsuite/
* gfortran.dg/gomp/order-5.f90: Adjust scan-tree-dump-times regexps.
libgomp/
* testsuite/libgomp.c-c++-common/order-reproducible-1.c: New test.
* testsuite/libgomp.c-c++-common/order-reproducible-2.c: New test.
This patch adds alloc_align attribute to omp_aligned_{,c}alloc so that if
the first argument is constant, GCC can assume requested alignment.
Additionally, it adds testsuite coverage for omp_realloc which I haven't
managed to write in the patch from yesterday.
2021-10-01 Jakub Jelinek <jakub@redhat.com>
* omp.h.in (omp_aligned_alloc, omp_aligned_calloc): Add
__alloc_align__ (1) attribute.
* testsuite/libgomp.c-c++-common/alloc-9.c: New test.
libgomp/
* testsuite/libgomp.fortran/alloc-7.f90: Add dg-prune-output
for -fintrinsic-modules-path= warning of the C compiler.
* testsuite/libgomp.fortran/alloc-9.f90: Likewise.
* testsuite/libgomp.fortran/alloc-10.f90: Likewise.
gcc/ChangeLog:
* omp-low.c (omp_runtime_api_call): Add omp_aligned_{,c}alloc and
omp_{c,re}alloc, fix omp_alloc/omp_free.
libgomp/ChangeLog:
* libgomp.texi (OpenMP 5.1): Set implementation status to Y for
omp_aligned_{,c}alloc and omp_{c,re}alloc routines.
* omp_lib.f90.in (omp_aligned_alloc, omp_aligned_calloc, omp_calloc,
omp_realloc): Add.
* omp_lib.h.in (omp_aligned_alloc, omp_aligned_calloc, omp_calloc,
omp_realloc): Add.
* testsuite/libgomp.fortran/alloc-10.f90: New test.
* testsuite/libgomp.fortran/alloc-6.f90: New test.
* testsuite/libgomp.fortran/alloc-7.c: New test.
* testsuite/libgomp.fortran/alloc-7.f90: New test.
* testsuite/libgomp.fortran/alloc-8.f90: New test.
* testsuite/libgomp.fortran/alloc-9.f90: New test.
This patch adds new OpenMP 5.1 allocator entrypoints and in addition to that
fixes an omp_alloc bug which is hard to test for - if the first allocator
fails but has a larger alignment trait and has a fallback allocator, either
the default behavior or a user fallback, then the extra alignment will be used
even in the fallback allocation, rather than just starting with whatever
alignment has been requested (in GOMP_alloc or the minimum one in omp_alloc).
Jonathan's comment on IRC this morning made me realize that I should add
alloc_align attributes to 2 of the prototypes and I still need to add testsuite
coverage for omp_realloc, will do that in a follow-up.
2021-09-30 Jakub Jelinek <jakub@redhat.com>
* omp.h.in (omp_aligned_alloc, omp_calloc, omp_aligned_calloc,
omp_realloc): New prototypes.
(omp_alloc): Move after omp_free prototype, add __malloc__ (omp_free)
attribute.
* allocator.c: Include string.h.
(omp_aligned_alloc): No longer static, add ialias. Add new_alignment
variable and use it instead of alignment so that when retrying the old
alignment is used again. Don't retry if new alignment is the same
as old alignment, unless allocator had pool size.
(omp_alloc, GOMP_alloc, GOMP_free): Use ialias_call.
(omp_aligned_calloc, omp_calloc, omp_realloc): New functions.
* libgomp.map (OMP_5.0.2): Export omp_aligned_alloc, omp_calloc,
omp_aligned_calloc and omp_realloc.
* testsuite/libgomp.c-c++-common/alloc-4.c (main): Add
omp_aligned_alloc, omp_calloc and omp_aligned_calloc tests.
* testsuite/libgomp.c-c++-common/alloc-5.c: New test.
* testsuite/libgomp.c-c++-common/alloc-6.c: New test.
* testsuite/libgomp.c-c++-common/alloc-7.c: New test.
* testsuite/libgomp.c-c++-common/alloc-8.c: New test.
The depend type is a struct with two pointer members for C/C++ - but for
Fortran OpenMP requires an integer type with kind = omp_depend_kind. Thus,
libgomp's configure checks that an integer type/kind with size 2*sizeof(void*)
is available. However, this integer type/kind is not needed when building without
Fortran support. Thus, only check this when Fortran is enabled.
libgomp/
PR libgomp/96661
* configure.ac: Only check for int-type = 2*size_t support when
building with Fortran support.
* configure: Regenerate.
Fix-up for recent commit 00f6de9c69
"Fortran: Fix assumed-size to assumed-rank passing [PR94070]",
and commit da1f6391b7
"libgomp.oacc-fortran/privatized-ref-2.f90: Fix dg-note".
Due to use of '#if !ACC_MEM_SHARED' conditionals in
'libgomp.oacc-fortran/if-1.f90', 'target { ! openacc_host_selected }'
needs some special care (ignoring the pre-existing mismatch of
'ACC_MEM_SHARED' vs. 'openacc_host_selected').
As seen with GCN offloading, we need to revert to another bit of the
original code in 'libgomp.oacc-fortran/privatized-ref-2.f90'.
libgomp/
* testsuite/libgomp.oacc-fortran/if-1.f90: Adjust.
* testsuite/libgomp.oacc-fortran/privatized-ref-2.f90: Likewise.
This patch implements the new hybrid forward threader and replaces the
embedded VRP threader with it.
With all the pieces that have gone in, the implementation of the hybrid
threader is straightforward: convert the current state into
SSA imports that the solver will understand, and let the path solver
precompute ranges and relations for the path. After this setup is done,
we can use the range_query API to solve gimple statements in the threader.
The forward threader is now engine agnostic so there are no changes to
the threader per se.
I have put the hybrid bits in tree-ssa-threadedge.*, instead of VRP,
because they will also be used in the evrp removal of the DOM/threader,
which is my next task.
Most of the patch, is actually test changes. I have gone through every
single one and verified that we're correct. Most were trivial dump
file name changes, but others required going through the IL an
certifying that the different IL was expected.
For example, in pr59597.c, we have one less thread because the
ASSERT_EXPR was getting in the way, and making it seem like things were
not crossing loops. The hybrid threader sees the correct representation
of the IL, and avoids threading this one case.
The final numbers are a 12.16% improvement in jump threads immediately
after VRP, and a 0.82% improvement in overall jump threads. The
performance drop is 0.6% (plus the 1.43% hit from moving the embedded
threader into its own pass). As I've said, I'd prefer to keep the
threader in its own pass, but if this is an issue, we can address this
with a shared ranger when VRP is replaced with an evrp instance
(upcoming).
Note, that these numbers are slightly different than what I originally
posted. A few correctness tweaks, plus restricting loop threads, made
the difference. That being said, I was aiming for par. A 12% gain is
just gravy ;-). When we merge the threaders, we should see even better
numbers-- and we'll have the benefit of an entire release stress testing
the solver.
As I mentioned in my introductory note, paths ending in MEM_REF
conditional are missing. In reality, this didn't make a difference, as
it was so rare. However, as a follow-up, I will distill a test and add
a suitable PR to keep us honest.
There is a one-line change to libgomp/team.c silencing a new used
uninitialized warning. As my previous work with the threaders has
shown, warnings flare up after each improvement to jump threading. I
expect this to be no different. I've promised Jakub to investigate
fully, so I will analyze and add the appropriate PR for the warning
experts.
Oh yeah, the new pass dump is called vrp-threader[12] to match each
VRP[12] pass. However, there's no reason for it to either be named
vrp-threader, or for it to live in tree-vrp.c.
Tested on x86-64 Linux.
OK?
p.s. "Did I say 5 weeks? My bad, I meant 5 months."
gcc/ChangeLog:
* passes.def (pass_vrp_threader): New.
* tree-pass.h (make_pass_vrp_threader): Add make_pass_vrp_threader.
* tree-ssa-threadedge.c (hybrid_jt_state::register_equivs_stmt): New.
(hybrid_jt_simplifier::hybrid_jt_simplifier): New.
(hybrid_jt_simplifier::simplify): New.
(hybrid_jt_simplifier::compute_ranges_from_state): New.
* tree-ssa-threadedge.h (class hybrid_jt_state): New.
(class hybrid_jt_simplifier): New.
* tree-vrp.c (execute_vrp): Remove ASSERT_EXPR based jump
threader.
(class hybrid_threader): New.
(hybrid_threader::hybrid_threader): New.
(hybrid_threader::~hybrid_threader): New.
(hybrid_threader::before_dom_children): New.
(hybrid_threader::after_dom_children): New.
(execute_vrp_threader): New.
(class pass_vrp_threader): New.
(make_pass_vrp_threader): New.
libgomp/ChangeLog:
* team.c: Initialize start_data.
* testsuite/libgomp.graphite/force-parallel-4.c: Adjust.
* testsuite/libgomp.graphite/force-parallel-8.c: Adjust.
gcc/testsuite/ChangeLog:
* gcc.dg/torture/pr55107.c: Adjust.
* gcc.dg/tree-ssa/phi_on_compare-1.c: Adjust.
* gcc.dg/tree-ssa/phi_on_compare-2.c: Adjust.
* gcc.dg/tree-ssa/phi_on_compare-3.c: Adjust.
* gcc.dg/tree-ssa/phi_on_compare-4.c: Adjust.
* gcc.dg/tree-ssa/pr21559.c: Adjust.
* gcc.dg/tree-ssa/pr59597.c: Adjust.
* gcc.dg/tree-ssa/pr61839_1.c: Adjust.
* gcc.dg/tree-ssa/pr61839_3.c: Adjust.
* gcc.dg/tree-ssa/pr71437.c: Adjust.
* gcc.dg/tree-ssa/ssa-dom-thread-11.c: Adjust.
* gcc.dg/tree-ssa/ssa-dom-thread-16.c: Adjust.
* gcc.dg/tree-ssa/ssa-dom-thread-18.c: Adjust.
* gcc.dg/tree-ssa/ssa-dom-thread-2a.c: Adjust.
* gcc.dg/tree-ssa/ssa-dom-thread-4.c: Adjust.
* gcc.dg/tree-ssa/ssa-thread-14.c: Adjust.
* gcc.dg/tree-ssa/ssa-vrp-thread-1.c: Adjust.
* gcc.dg/tree-ssa/vrp106.c: Adjust.
* gcc.dg/tree-ssa/vrp55.c: Adjust.
In my last commit, r12-3897-g00f6de9c69119594f7dad3bd525937c94c8200d0,
which inlined array-size code, I had to update the expected output. However,
in doing so, I accidentally (copy'n'paste) changed dg-note into dg-message.
libgomp/
* testsuite/libgomp.oacc-fortran/privatized-ref-2.f90: Change
dg-message back to dg-note.
This code inlines the size0 and size1 libgfortran calls, the former is still
used by libgfortan itself (and by old code). Besides permitting more
optimizations, it also permits to handle assumed-rank dummies better: If the
dummy argument is a nonpointer/nonallocatable, an assumed-size actual arg is
repesented by having ubound == -1 for the last dimension. However, for
allocatable/pointers, this value can also exist. Hence, the dummy arg attr
has to be honored.
For that reason, when calling an assumed-rank procedure with nonpointer,
nonallocatable dummy arguments, the bounds have to be updated to avoid
the case ubound == -1 for the last dimension.
PR fortran/94070
gcc/fortran/ChangeLog:
* trans-array.c (gfc_tree_array_size): New function to
find size inline (whole array or one dimension).
(array_parameter_size): Use it, take stmt_block as arg.
(gfc_conv_array_parameter): Update call.
* trans-array.h (gfc_tree_array_size): Add prototype.
* trans-decl.c (gfor_fndecl_size0, gfor_fndecl_size1): Remove
these global vars.
(gfc_build_intrinsic_function_decls): Remove their initialization.
* trans-expr.c (gfc_conv_procedure_call): Update
bounds of pointer/allocatable actual args to nonallocatable/nonpointer
dummies to be one based.
* trans-intrinsic.c (gfc_conv_intrinsic_shape): Fix case for
assumed rank with allocatable/pointer dummy.
(gfc_conv_intrinsic_size): Update to use inline function.
* trans.h (gfor_fndecl_size0, gfor_fndecl_size1): Remove var decl.
libgfortran/ChangeLog:
* intrinsics/size.c (size0, size1): Comment that now not
used by newer compiler code.
libgomp/ChangeLog:
* testsuite/libgomp.oacc-fortran/privatized-ref-2.f90: Update
expected dg-note output.
gcc/testsuite/ChangeLog:
* gfortran.dg/c-interop/cf-out-descriptor-6.f90: Remove xfail.
* gfortran.dg/c-interop/size.f90: Remove xfail.
* gfortran.dg/intrinsic_size_3.f90: Update scan-tree-dump-times.
* gfortran.dg/transpose_optimization_2.f90: Likewise.
* gfortran.dg/size_optional_dim_1.f90: Add scan-tree-dump-not.
* gfortran.dg/assumed_rank_22.f90: New test.
* gfortran.dg/assumed_rank_22_aux.c: New test.
It turned out that enabling the -Wmissing-include-dirs for libcpp did output
too many warnings – at least as run with -B and similar options during the
GCC build and warning for internal include dirs like finclude, unlikely of
relevance to for a real-world user.
This patch now only warns for -I and -J by default but permits to get the
full warnings including libcpp ones with -Wmissing-include-dirs. It
additionally documents this in the manual.
With that change, the -Wno-missing-include-dirs could be removed
from libgfortran's configure and libgomp's testsuite always cflags.
This reverts those bits of the previous
commit r12-3722-g417ea5c02cef7f000e66d1af22b066c2c1cda047
Additionally, it turned out that all call to load_file called exit
explicitly - except for the main file via gfc_init -> gfc_new_file. The
latter also output a file not existing fatal error, such that two errors
where printed. Now exit is called in line with the other users of
load_file.
Finally, when compileing with "nonexisting/file.f90", first a warning that
"nonexisting" does not exist as include path was printed before the file
not found error was printed. Now the directory in which the physical file
is located is added silently, relying on the file-not-found diagnostic for
those.
PR fortran/55534
gcc/ChangeLog:
* doc/invoke.texi (-Wno-missing-include-dirs.): Document Fortran
behavior.
gcc/fortran/ChangeLog:
* cpp.c (gfc_cpp_register_include_paths, gfc_cpp_post_options):
Add new bool verbose_missing_dir_warn argument.
* cpp.h (gfc_cpp_post_options): Update prototype.
* f95-lang.c (gfc_init): Remove duplicated file-not found diag.
* gfortran.h (gfc_check_include_dirs): Takes bool
verbose_missing_dir_warn arg.
(gfc_new_file): Returns now void.
* options.c (gfc_post_options): Update to warn for -I and -J,
only, by default but for all when user requested.
* scanner.c (gfc_do_check_include_dir):
(gfc_do_check_include_dirs, gfc_check_include_dirs): Take bool
verbose warn arg and update to avoid printing the same message
twice or never.
(load_file): Fix indent.
(gfc_new_file): Return void and exit when load_file failed
as all other load_file users do.
libgfortran/ChangeLog:
* configure.ac (AM_FCFLAGS): Revert r12-3722 by removing
-Wno-missing-include-dirs.
* configure: Regenerate.
libgomp/ChangeLog:
* testsuite/libgomp.fortran/fortran.exp (ALWAYS_CFLAGS): Revert
r12-3722 by removing -Wno-missing-include-dirs.
* testsuite/libgomp.oacc-fortran/fortran.exp (ALWAYS_CFLAGS): Likewise.
gcc/testsuite/ChangeLog:
* gfortran.dg/include_14.f90: Add -J testcase and update dg-output.
* gfortran.dg/include_15.f90: Likewise.
* gfortran.dg/include_16.f90: Likewise.
* gfortran.dg/include_17.f90: Likewise.
* gfortran.dg/include_18.f90: Likewise.
* gfortran.dg/include_19.f90: Likewise.
As the allocate-2.c testcase shows, this change isn't 100% backwards compatible,
one could have allocate and/or align functions that return an OpenMP allocator
handle and previously it would call those functions and now would use those
names as keywords for the modifiers. But it allows specify extra alignment
requirements for the allocations.
2021-09-22 Jakub Jelinek <jakub@redhat.com>
gcc/
* tree.h (OMP_CLAUSE_ALLOCATE_ALIGN): Define.
* tree.c (omp_clause_num_ops): Change number of OMP_CLAUSE_ALLOCATE
arguments from 2 to 3.
* tree-pretty-print.c (dump_omp_clause): Print allocator() around
allocate clause allocator and print align if present.
* omp-low.c (scan_sharing_clauses): Force allocate_map entry even
for omp_default_mem_alloc if align modifier is present. If align
modifier is present, use TREE_LIST to encode both allocator and
align.
(lower_private_allocate, lower_rec_input_clauses, create_task_copyfn):
Handle align modifier on allocator clause if present.
gcc/c-family/
* c-omp.c (c_omp_split_clauses): Copy over OMP_CLAUSE_ALLOCATE_ALIGN.
gcc/c/
* c-parser.c (c_parser_omp_clause_allocate): Parse allocate clause
modifiers.
gcc/cp/
* parser.c (cp_parser_omp_clause_allocate): Parse allocate clause
modifiers.
* semantics.c (finish_omp_clauses) <OMP_CLAUSE_ALLOCATE>: Perform
semantic analysis of OMP_CLAUSE_ALLOCATE_ALIGN.
* pt.c (tsubst_omp_clauses) <case OMP_CLAUSE_ALLOCATE>: Handle
also OMP_CLAUSE_ALLOCATE_ALIGN.
gcc/testsuite/
* c-c++-common/gomp/allocate-6.c: New test.
* c-c++-common/gomp/allocate-7.c: New test.
* g++.dg/gomp/allocate-4.C: New test.
libgomp/
* testsuite/libgomp.c-c++-common/allocate-2.c: New test.
* testsuite/libgomp.c-c++-common/allocate-3.c: New test.
gcc/fortran/ChangeLog:
PR fortran/55534
* cpp.c: Define GCC_C_COMMON_C for #include "options.h" to make
cpp_reason_option_codes available.
(gfc_cpp_register_include_paths): Make static, set pfile's
warn_missing_include_dirs and move before caller.
(gfc_cpp_init_cb): New, cb code moved from ...
(gfc_cpp_init_0): ... here.
(gfc_cpp_post_options): Call gfc_cpp_init_cb.
(cb_cpp_diagnostic_cpp_option): New. As implemented in c-family
to match CppReason flags to -W... names.
(cb_cpp_diagnostic): Use it to replace single special case.
* cpp.h (gfc_cpp_register_include_paths): Remove as now static.
* gfortran.h (gfc_check_include_dirs): New prototype.
(gfc_add_include_path): Add new bool arg.
* options.c (gfc_init_options): Don't set -Wmissing-include-dirs.
(gfc_post_options): Set it here after commandline processing. Call
gfc_add_include_path with defer_warn=false.
(gfc_handle_option): Call it with defer_warn=true.
* scanner.c (gfc_do_check_include_dir, gfc_do_check_include_dirs,
gfc_check_include_dirs): New. Diagnostic moved from ...
(add_path_to_list): ... here, which came before cmdline processing.
Take additional bool defer_warn argument.
(gfc_add_include_path): Take additional defer_warn arg.
* scanner.h (struct gfc_directorylist): Reorder for alignment issues,
add new 'bool warn'.
libgfortran/ChangeLog:
PR fortran/55534
* configure.ac (AM_FCFLAGS): Add -Wno-missing-include-dirs.
* configure: Regenerate.
libgomp/ChangeLog:
PR fortran/55534
* testsuite/libgomp.fortran/fortran.exp: Add -Wno-missing-include-dirs
to ALWAYS_CFLAGS.
* testsuite/libgomp.oacc-fortran/fortran.exp: Likewise.
gcc/testsuite/ChangeLog:
* gfortran.dg/include_6.f90: Change dg-error to
dg-warning and update pattern.
* gfortran.dg/include_14.f90: New test.
* gfortran.dg/include_15.f90: New test.
* gfortran.dg/include_16.f90: New test.
* gfortran.dg/include_17.f90: New test.
* gfortran.dg/include_18.f90: New test.
* gfortran.dg/include_19.f90: New test.
* gfortran.dg/include_20.f90: New test.
* gfortran.dg/include_21.f90: New test.
OpenMP 5.1 allows default(private) or default(firstprivate) even in C/C++,
but it behaves the same way as in Fortran only for variables not declared at
namespace or file scope. For the namespace/file scope variables it instead
behaves as default(none).
2021-09-18 Jakub Jelinek <jakub@redhat.com>
gcc/
* gimplify.c (omp_default_clause): For C/C++ default({,first}private),
if file/namespace scope variable doesn't have predetermined sharing,
treat it as if there was default(none).
gcc/c/
* c-parser.c (c_parser_omp_clause_default): Handle private and
firstprivate arguments, adjust diagnostics on unknown argument.
gcc/cp/
* parser.c (cp_parser_omp_clause_default): Handle private and
firstprivate arguments, adjust diagnostics on unknown argument.
* cp-gimplify.c (cxx_omp_finish_clause): Handle OMP_CLAUSE_PRIVATE.
gcc/testsuite/
* c-c++-common/gomp/default-2.c: New test.
* c-c++-common/gomp/default-3.c: New test.
* g++.dg/gomp/default-1.C: New test.
libgomp/
* testsuite/libgomp.c++/default-1.C: New test.
* testsuite/libgomp.c-c++-common/default-1.c: New test.
* libgomp.texi (OpenMP 5.1): Mark "private and firstprivate argument
to default clause in C and C++" as implemented.
This patch implements an algorithm to lay out local data-share (LDS)
space. It currently works for AMD GCN. At the moment, LDS is used for
three things:
1. Gang-private variables
2. Reduction temporaries (accumulators)
3. Broadcasting for worker partitioning
After the patch is applied, (2) and (3) are placed at preallocated
locations in LDS, and (1) continues to be handled by the backend (as it
is at present prior to this patch being applied). LDS now looks like this:
+--------------+ (gang-private size + 1024, = 1536)
| free space |
| ... |
| - - - - - - -|
| worker bcast |
+--------------+
| reductions |
+--------------+ <<< -mgang-private-size=<number> (def. 512)
| gang-private |
| vars |
+--------------+ (32)
| low LDS vars |
+--------------+ LDS base
So, gang-private space is fixed at a constant amount at compile time
(which can be increased with a command-line switch if necessary
for some given code). The layout algorithm takes out a slice of the
remainder of usable space for reduction vars, and uses the rest for
worker partitioning.
The partitioning algorithm works as follows.
1. An "adjacency" set is built up for each basic block that might
do a broadcast. This is calculated by starting at each such block,
and doing a recursive DFS walk over successors to find the next
block (or blocks) that *also* does a broadcast
(dfs_broadcast_reachable_1).
2. The adjacency set is inverted to get adjacent predecessor blocks also.
3. Blocks that will perform a broadcast are sorted by size of that
broadcast: the biggest blocks are handled first.
4. A splay tree structure is used to calculate the spans of LDS memory
that are already allocated by the blocks adjacent to this one
(merge_ranges{,_1}.
5. The current block's broadcast space is allocated from the first free
span not allocated in the splay tree structure calculated above
(first_fit_range). This seems to work quite nicely and efficiently
with the splay tree structure.
6. Continue with the next-biggest broadcast block until we're done.
In this way, "adjacent" broadcasts will not use the same piece of
LDS memory.
PR96334 "openacc: Unshare reduction temporaries for GCN" got merged in:
The GCN backend uses tree nodes like MEM((__lds TYPE *) <constant>)
for reduction temporaries. Unlike e.g. var decls and SSA names, these
nodes cannot be shared during gimplification, but are so in some
circumstances. This is detected when appropriate --enable-checking
options are used. This patch unshares such nodes when they are reused
more than once.
gcc/
* config/gcn/gcn-protos.h
(gcn_goacc_create_worker_broadcast_record): Update prototype.
* config/gcn/gcn-tree.c (gcn_goacc_get_worker_red_decl): Use
preallocated block of LDS memory. Do not cache/share decls for
reduction temporaries between invocations.
(gcn_goacc_reduction_teardown): Unshare VAR on second use.
(gcn_goacc_create_worker_broadcast_record): Add OFFSET parameter
and return temporary LDS space at that offset. Return pointer in
"sender" case.
* config/gcn/gcn.c (acc_lds_size, gang_private_hwm, lds_allocs):
New global vars.
(ACC_LDS_SIZE): Define as acc_lds_size.
(gcn_init_machine_status): Don't initialise lds_allocated,
lds_allocs, reduc_decls fields of machine function struct.
(gcn_option_override): Handle default size for gang-private
variables and -mgang-private-size option.
(gcn_expand_prologue): Use LDS_SIZE instead of LDS_SIZE-1 when
initialising M0_REG.
(gcn_shared_mem_layout): New function.
(gcn_print_lds_decl): Update comment. Use global lds_allocs map and
gang_private_hwm variable.
(TARGET_GOACC_SHARED_MEM_LAYOUT): Define target hook.
* config/gcn/gcn.h (machine_function): Remove lds_allocated,
lds_allocs, reduc_decls. Add reduction_base, reduction_limit.
* config/gcn/gcn.opt (gang_private_size_opt): New global.
(mgang-private-size=): New option.
* doc/tm.texi.in (TARGET_GOACC_SHARED_MEM_LAYOUT): Place
documentation hook.
* doc/tm.texi: Regenerate.
* omp-oacc-neuter-broadcast.cc (targhooks.h, diagnostic-core.h):
Add includes.
(build_sender_ref): Handle sender_decl being pointer.
(worker_single_copy): Add PLACEMENT and ISOLATE_BROADCASTS
parameters. Pass placement argument to
create_worker_broadcast_record hook invocations. Handle
sender_decl being pointer and isolate_broadcasts inserting extra
barriers.
(blk_offset_map_t): Add typedef.
(neuter_worker_single): Add BLK_OFFSET_MAP parameter. Pass
preallocated range to worker_single_copy call.
(dfs_broadcast_reachable_1): New function.
(idx_decl_pair_t, used_range_vec_t): New typedefs.
(sort_size_descending): New function.
(addr_range): New class.
(splay_tree_compare_addr_range, splay_tree_free_key)
(first_fit_range, merge_ranges_1, merge_ranges): New functions.
(execute_omp_oacc_neuter_broadcast): Rename to...
(oacc_do_neutering): ... this. Add BOUNDS_LO, BOUNDS_HI
parameters. Arrange layout of shared memory for broadcast
operations.
(execute_omp_oacc_neuter_broadcast): New function.
(pass_omp_oacc_neuter_broadcast::gate): Remove num_workers==1
handling from here. Enable pass for all OpenACC routines in order
to call shared memory-layout hook.
* target.def (create_worker_broadcast_record): Add OFFSET
parameter.
(shared_mem_layout): New hook.
libgomp/
* testsuite/libgomp.oacc-c-c++-common/broadcast-many.c: Update.
Besides the C++ FE changes, I've noticed that the C FE didn't reject
#pragma omp atomic capture compare
{ v = x; x = y; }
and other forms of atomic swap, this patch fixes that too. And the
c-family/ routine needed quite a few changes so that the new code
in it works fine with both FEs.
2021-09-17 Jakub Jelinek <jakub@redhat.com>
gcc/c-family/
* c-omp.c (c_finish_omp_atomic): Avoid creating
TARGET_EXPR if test is true, use create_tmp_var_raw instead of
create_tmp_var and add a zero initializer to TARGET_EXPRs that
had NULL initializer. When omitting operands after v = x,
use type of v rather than type of x. Fix type of vtmp
TARGET_EXPR.
gcc/c/
* c-parser.c (c_parser_omp_atomic): Reject atomic swap if capture
is true.
gcc/cp/
* cp-tree.h (finish_omp_atomic): Add r and weak arguments.
* parser.c (cp_parser_omp_atomic): Update function comment for
OpenMP 5.1 atomics, parse OpenMP 5.1 atomics and fail, compare and
weak clauses.
* semantics.c (finish_omp_atomic): Add r and weak arguments, handle
them, handle COND_EXPRs.
* pt.c (tsubst_expr): Adjust for COND_EXPR forms that
finish_omp_atomic can now produce.
gcc/testsuite/
* c-c++-common/gomp/atomic-18.c: Expect same diagnostics in C++ as in
C.
* c-c++-common/gomp/atomic-25.c: Drop c effective target.
* c-c++-common/gomp/atomic-26.c: Likewise.
* c-c++-common/gomp/atomic-27.c: Likewise.
* c-c++-common/gomp/atomic-28.c: Likewise.
* c-c++-common/gomp/atomic-29.c: Likewise.
* c-c++-common/gomp/atomic-30.c: Likewise. Adjust expected diagnostics
for C++ when it differs from C.
(foo): Change return type from double to void.
* g++.dg/gomp/atomic-5.C: Adjust expected diagnostics wording.
* g++.dg/gomp/atomic-20.C: New test.
libgomp/
* testsuite/libgomp.c-c++-common/atomic-19.c: Drop c effective target.
Use /* */ comments instead of //.
* testsuite/libgomp.c-c++-common/atomic-20.c: Likewise.
* testsuite/libgomp.c-c++-common/atomic-21.c: Likewise.
* testsuite/libgomp.c++/atomic-16.C: New test.
* testsuite/libgomp.c++/atomic-17.C: New test.
This patch implements OpenMP 5.1 atomics (with clarifications from upcoming 5.2).
The most important changes are that it is now possible to write (for C/C++,
for Fortran it was possible before already) min/max atomics and more importantly
compare and exchange in various forms.
Also, acq_rel is now allowed on read/write and acq_rel/acquire are allowed on
update, and there are new compare, weak and fail clauses.
2021-09-10 Jakub Jelinek <jakub@redhat.com>
gcc/
* tree-core.h (enum omp_memory_order): Add OMP_MEMORY_ORDER_MASK,
OMP_FAIL_MEMORY_ORDER_UNSPECIFIED, OMP_FAIL_MEMORY_ORDER_RELAXED,
OMP_FAIL_MEMORY_ORDER_ACQUIRE, OMP_FAIL_MEMORY_ORDER_RELEASE,
OMP_FAIL_MEMORY_ORDER_ACQ_REL, OMP_FAIL_MEMORY_ORDER_SEQ_CST and
OMP_FAIL_MEMORY_ORDER_MASK enumerators.
(OMP_FAIL_MEMORY_ORDER_SHIFT): Define.
* gimple-pretty-print.c (dump_gimple_omp_atomic_load,
dump_gimple_omp_atomic_store): Print [weak] for weak atomic
load/store.
* gimple.h (enum gf_mask): Change GF_OMP_ATOMIC_MEMORY_ORDER
to 6-bit mask, adjust GF_OMP_ATOMIC_NEED_VALUE value and add
GF_OMP_ATOMIC_WEAK.
(gimple_omp_atomic_weak_p, gimple_omp_atomic_set_weak): New inline
functions.
* tree.h (OMP_ATOMIC_WEAK): Define.
* tree-pretty-print.c (dump_omp_atomic_memory_order): Adjust for
fail memory order being encoded in the same enum and also print
fail clause if present.
(dump_generic_node): Print weak clause if OMP_ATOMIC_WEAK.
* gimplify.c (goa_stabilize_expr): Add target_expr and rhs arguments,
handle pre_p == NULL case as a test mode that only returns value
but doesn't change gimplify nor change anything otherwise, adjust
recursive calls, add MODIFY_EXPR, ADDR_EXPR, COND_EXPR, TARGET_EXPR
and CALL_EXPR handling, adjust COMPOUND_EXPR handling for
__builtin_clear_padding calls, for !rhs gimplify as lvalue rather
than rvalue.
(gimplify_omp_atomic): Adjust goa_stabilize_expr caller. Handle
COND_EXPR rhs. Set weak flag on gimple load/store for
OMP_ATOMIC_WEAK.
* omp-expand.c (omp_memory_order_to_fail_memmodel): New function.
(omp_memory_order_to_memmodel): Adjust for fail clause encoded
in the same enum.
(expand_omp_atomic_cas): New function.
(expand_omp_atomic_pipeline): Use omp_memory_order_to_fail_memmodel
function.
(expand_omp_atomic): Attempt to optimize atomic compare and exchange
using expand_omp_atomic_cas.
gcc/c-family/
* c-common.h (c_finish_omp_atomic): Add r and weak arguments.
* c-omp.c: Include gimple-fold.h.
(c_finish_omp_atomic): Add r and weak arguments. Add support for
OpenMP 5.1 atomics.
gcc/c/
* c-parser.c (c_parser_conditional_expression): If omp_atomic_lhs and
cond.value is >, < or == with omp_atomic_lhs as one of the operands,
don't call build_conditional_expr, instead build a COND_EXPR directly.
(c_parser_binary_expression): Avoid calling parser_build_binary_op
if omp_atomic_lhs even in more cases for >, < or ==.
(c_parser_omp_atomic): Update function comment for OpenMP 5.1 atomics,
parse OpenMP 5.1 atomics and fail, compare and weak clauses, allow
acq_rel on atomic read/write and acq_rel/acquire clauses on update.
* c-typeck.c (build_binary_op): For flag_openmp only handle
MIN_EXPR/MAX_EXPR.
gcc/cp/
* parser.c (cp_parser_omp_atomic): Allow acq_rel on atomic read/write
and acq_rel/acquire clauses on update.
* semantics.c (finish_omp_atomic): Adjust c_finish_omp_atomic caller.
gcc/testsuite/
* c-c++-common/gomp/atomic-17.c (foo): Add tests for atomic read,
write or update with acq_rel clause and atomic update with acquire clause.
* c-c++-common/gomp/atomic-18.c (foo): Adjust expected diagnostics
wording, remove tests moved to atomic-17.c.
* c-c++-common/gomp/atomic-21.c: Expect only 2 omp atomic release and
2 omp atomic acq_rel directives instead of 4 omp atomic release.
* c-c++-common/gomp/atomic-25.c: New test.
* c-c++-common/gomp/atomic-26.c: New test.
* c-c++-common/gomp/atomic-27.c: New test.
* c-c++-common/gomp/atomic-28.c: New test.
* c-c++-common/gomp/atomic-29.c: New test.
* c-c++-common/gomp/atomic-30.c: New test.
* c-c++-common/goacc-gomp/atomic.c: Expect 1 omp atomic release and
1 omp atomic_acq_rel instead of 2 omp atomic release directives.
* gcc.dg/gomp/atomic-5.c: Adjust expected error diagnostic wording.
* g++.dg/gomp/atomic-18.C:Expect 4 omp atomic release and
1 omp atomic_acq_rel instead of 5 omp atomic release directives.
libgomp/
* testsuite/libgomp.c-c++-common/atomic-19.c: New test.
* testsuite/libgomp.c-c++-common/atomic-20.c: New test.
* testsuite/libgomp.c-c++-common/atomic-21.c: New test.
... to avoid a regression with recent
commit 090f0d78f1
"openmp: Improve expand_omp_atomic_pipeline":
unresolved symbol __atomic_compare_exchange_1
collect2: error: ld returned 1 exit status
mkoffload: fatal error: [...]/gcc/x86_64-pc-linux-gnu-accel-nvptx-none-gcc returned 1 exit status
libgomp/
* testsuite/libgomp.c/target-43.c: '-latomic' for nvptx offloading.
Intel MIC (emulated) offloading execution failure remains to be analyzed.
libgomp/
* testsuite/libgomp.c/address-space-1.c: New file.
Co-authored-by: Jakub Jelinek <jakub@redhat.com>
..., and use that to improve XFAILing for Intel MIC offloading execution
instead of compilation in 'libgomp.c-c++-common/target-45.c',
'libgomp.fortran/target10.f90'.
gcc/
* config/i386/i386-options.c (ix86_omp_device_kind_arch_isa)
<omp_device_arch> [ACCEL_COMPILER]: Match "intel_mic".
* config/i386/t-omp-device (omp-device-properties-i386) <arch>:
Add "intel_mic".
libgomp/
* testsuite/lib/libgomp.exp
(check_effective_target_offload_target_intelmic): Remove 'proc'.
(check_effective_target_offload_device_intel_mic): New 'proc'.
* testsuite/libgomp.c-c++-common/on_device_arch.h
(device_arch_intel_mic, on_device_arch_intel_mic): New.
* testsuite/libgomp.c-c++-common/target-45.c: Use that for
'dg-xfail-run-if'.
* testsuite/libgomp.fortran/target10.f90: Likewise.
This patch adds support for the 'strict' modifier on grainsize/num_tasks
clauses, an OpenMP 5.1 feature supported in C/C++ since commit
r12-3066-g3bc75533d1f87f0617be6c1af98804f9127ec637
gcc/fortran/ChangeLog:
* dump-parse-tree.c (show_omp_clauses): Handle 'strict' modifier
on grainsize/num_tasks
* gfortran.h (gfc_omp_clauses): Add grainsize_strict
and num_tasks_strict.
* trans-openmp.c (gfc_trans_omp_clauses, gfc_split_omp_clauses):
Handle 'strict' modifier on grainsize/num_tasks.
* openmp.c (gfc_match_omp_clauses): Likewise.
libgomp/ChangeLog:
* testsuite/libgomp.fortran/taskloop-4-a.f90: New test.
* testsuite/libgomp.fortran/taskloop-4.f90: New test.
* testsuite/libgomp.fortran/taskloop-5-a.f90: New test.
* testsuite/libgomp.fortran/taskloop-5.f90: New test.
With strict: modifier on these clauses, the standard is explicit about
how many iterations (and which) each generated task of taskloop directive
should contain. For num_tasks it actually matches what we were already
implementing, but for grainsize it does not (and even violates the old
rule - without strict it requires that the number of iterations (unspecified
which exactly) handled by each generated task is >= grainsize argument and
< 2 * grainsize argument, with strict: it requires that each generated
task handles exactly == grainsize argument iterations, except for the
generated task handling the last iteration which can handles <= grainsize
iterations).
The following patch implements it for C and C++.
2021-08-23 Jakub Jelinek <jakub@redhat.com>
gcc/
* tree.h (OMP_CLAUSE_GRAINSIZE_STRICT): Define.
(OMP_CLAUSE_NUM_TASKS_STRICT): Define.
* tree-pretty-print.c (dump_omp_clause) <case OMP_CLAUSE_GRAINSIZE,
case OMP_CLAUSE_NUM_TASKS>: Print strict: modifier.
* omp-expand.c (expand_task_call): Use GOMP_TASK_FLAG_STRICT in iflags
if either grainsize or num_tasks clause has the strict modifier.
gcc/c/
* c-parser.c (c_parser_omp_clause_num_tasks,
c_parser_omp_clause_grainsize): Parse the optional strict: modifier.
gcc/cp/
* parser.c (cp_parser_omp_clause_num_tasks,
cp_parser_omp_clause_grainsize): Parse the optional strict: modifier.
include/
* gomp-constants.h (GOMP_TASK_FLAG_STRICT): Define.
libgomp/
* taskloop.c (GOMP_taskloop): Handle GOMP_TASK_FLAG_STRICT.
* testsuite/libgomp.c-c++-common/taskloop-4.c (main): Fix up comment.
* testsuite/libgomp.c-c++-common/taskloop-5.c: New test.
... and add a minimum amount of offloading testing.
(Leaving aside that 'fwrite' to 'stderr' probably wouldn't work anyway) the
'fwrite' calls in 'libgomp/error.c:GOMP_warning', 'libgomp/error.c:GOMP_error'
drag in 'isatty', which isn't provided by my nvptx newlib build at present, so
we get, for example:
[...]
FAIL: libgomp.c/../libgomp.c-c++-common/declare_target-1.c (test for excess errors)
Excess errors:
unresolved symbol isatty
mkoffload: fatal error: [...]/build-gcc/./gcc/x86_64-pc-linux-gnu-accel-nvptx-none-gcc returned 1 exit status
[...]
..., and many more.
Fix up for recent commit 0d973c0a0d
"openmp: Implement the error directive".
libgomp/
* config/nvptx/error.c (fwrite, exit): Override, too.
* testsuite/libgomp.c-c++-common/error-1.c: Add a minimum amount
of offloading testing.
* testsuite/libgomp.fortran/error-1.f90: Likewise.
This patch implements the error directive. Depending on clauses it is either
a compile time diagnostics (in that case diagnosed right away) or runtime
diagnostics (libgomp API call that diagnoses at runtime), and either fatal
or warning (error or warning at compile time or fatal error vs. error at
runtime) and either has no message or user supplied message (this kind of
e.g. deprecated attribute). The directive is also stand-alone directive
when at runtime while utility (thus disappears from the IL as if it wasn't
there for parsing like nothing directive) at compile time.
There are some clarifications in the works ATM, so this patch doesn't yet
require that for compile time diagnostics the user message must be a constant
string literal, there are uncertainities on what exactly is valid argument
of message clause (whether just const char * type, convertible to const char *,
qualified/unqualified const char * or char * or what else) and what to do
in templates. Currently even in templates it is diagnosed right away for
compile time diagnostics, if we'll need to substitute it, we'd need to queue
something into the IL, have pt.c handle it and diagnose only later.
2021-08-20 Jakub Jelinek <jakub@redhat.com>
gcc/
* omp-builtins.def (BUILT_IN_GOMP_WARNING, BUILT_IN_GOMP_ERROR): New
builtins.
gcc/c-family/
* c-pragma.h (enum pragma_kind): Add PRAGMA_OMP_ERROR.
* c-pragma.c (omp_pragmas): Add error directive.
* c-omp.c (omp_directives): Uncomment error directive entry.
gcc/c/
* c-parser.c (c_parser_omp_error): New function.
(c_parser_pragma): Handle PRAGMA_OMP_ERROR.
gcc/cp/
* parser.c (cp_parser_handle_statement_omp_attributes): Determine if
PRAGMA_OMP_ERROR directive is C_OMP_DIR_STANDALONE.
(cp_parser_omp_error): New function.
(cp_parser_pragma): Handle PRAGMA_OMP_ERROR.
gcc/fortran/
* types.def (BT_FN_VOID_CONST_PTR_SIZE): New DEF_FUNCTION_TYPE_2.
* f95-lang.c (ATTR_COLD_NORETURN_NOTHROW_LEAF_LIST): Define.
gcc/testsuite/
* c-c++-common/gomp/error-1.c: New test.
* c-c++-common/gomp/error-2.c: New test.
* c-c++-common/gomp/error-3.c: New test.
* g++.dg/gomp/attrs-1.C (bar): Add error directive test.
* g++.dg/gomp/attrs-2.C (bar): Add error directive test.
* g++.dg/gomp/attrs-13.C: New test.
* g++.dg/gomp/error-1.C: New test.
libgomp/
* libgomp.map (GOMP_5.1): Add GOMP_error and GOMP_warning.
* libgomp_g.h (GOMP_warning, GOMP_error): Declare.
* error.c (GOMP_warning, GOMP_error): New functions.
* testsuite/libgomp.c-c++-common/error-1.c: New test.
Chung-Lin Tang
Jakub Jelinek
GCC Administrator
Tobias Burnus
Thomas Schwinge
Aldy Hernandez
Kwok Cheung Yeung
Julian Brown
liuhongt
Marcel Vollweiler