Hi Jeff
On 10/01/18 21:08, Jeff Law wrote:
On 01/10/2018 09:25 AM, Sudakshina Das wrote:
Hi Jeff
On 10/01/18 10:44, Sudakshina Das wrote:
Hi Jeff
On 09/01/18 23:43, Jeff Law wrote:
On 01/05/2018 12:25 PM, Sudakshina Das wrote:
Hi Jeff
On 05/01/18 18:44, Jeff Law wrote:
On 01/04/2018 08:35 AM, Sudakshina Das wrote:
Hi
The bug reported a particular test di-longlong64-sync-1.c failing
when
run on arm-linux-gnueabi with options -mthumb -march=armv5t
-O[g,1,2,3]
and -mthumb -march=armv6 -O[g,1,2,3].
According to what I could see, the crash was caused because of the
explicit VOIDmode argument that was sent to emit_store_flag_force ().
Since the comparing argument was a long long, it was being forced
into a
VOID type register before the comparison (in prepare_cmp_insn()) is done.
As pointed out by Kyrill, there is a comment on emit_store_flag()
which
says "MODE is the mode to use for OP0 and OP1 should they be
CONST_INTs.
If it is VOIDmode, they cannot both be CONST_INT". This
condition is
not true in this case and thus I think it is suitable to change the
argument.
Testing done: Checked for regressions on bootstrapped
arm-none-linux-gnueabi and arm-none-linux-gnueabihf and added new
test
cases.
Sudi
ChangeLog entries:
*** gcc/ChangeLog ***
2017-01-04 Sudakshina Das <sudi....@arm.com>
PR target/82096
* optabs.c (expand_atomic_compare_and_swap): Change argument
to emit_store_flag_force.
*** gcc/testsuite/ChangeLog ***
2017-01-04 Sudakshina Das <sudi....@arm.com>
PR target/82096
* gcc.c-torture/compile/pr82096-1.c: New test.
* gcc.c-torture/compile/pr82096-2.c: Likwise.
In the case where both (op0/op1) to
emit_store_flag/emit_store_flag_force are constants, don't we know the
result of the comparison and shouldn't we have optimized the store
flag
to something simpler?
I feel like I must be missing something here.
emit_store_flag_force () is comparing a register to op0.
?
/* Emit a store-flags instruction for comparison CODE on OP0 and OP1
and storing in TARGET. Normally return TARGET.
Return 0 if that cannot be done.
MODE is the mode to use for OP0 and OP1 should they be
CONST_INTs. If
it is VOIDmode, they cannot both be CONST_INT.
So we're comparing op0 and op1 AFAICT. One, but not both can be a
CONST_INT. If both are a CONST_INT, then you need to address the
problem in the caller (by optimizing away the condition). If you've got
a REG and a CONST_INT, then the mode should be taken from the REG
operand.
The 2 constant arguments are to the expand_atomic_compare_and_swap ()
function. emit_store_flag_force () is used in case when this
function is
called by the bool variant of the built-in function where the bool
return value is computed by comparing the result register with the
expected op0.
So if only one of the two objects is a CONST_INT, then the mode should
come from the other object. I think that's the fundamental problem here
and that you're just papering over it by changing the caller.
I think my earlier explanation was a bit misleading and I may have
rushed into quoting the comment about both operands being const for
emit_store_flag_force(). The problem is with the function and I do
agree with your suggestion of changing the function to add the code
below to be a better approach than the changing the caller. I will
change the patch and test it.
This is the updated patch according to your suggestions.
Testing: Checked for regressions on arm-none-linux-gnueabihf and added
new test case.
Thanks
Sudi
ChangeLog entries:
*** gcc/ChangeLog ***
2017-01-10 Sudakshina Das <sudi....@arm.com>
PR target/82096
* expmed.c (emit_store_flag_force): Swap if const op0
and change VOIDmode to mode of op0.
*** gcc/testsuite/ChangeLog ***
2017-01-10 Sudakshina Das <sudi....@arm.com>
PR target/82096
* gcc.c-torture/compile/pr82096.c: New test.
OK.
Thanks. Committed as r256526.
Sudi
jeff
