[PR55547] fix alias regression on alpha on misaligned symbols (was: Re: do you have time to review this alpha P1 patch?)

On Jan 15, 2013, Richard Henderson <rth@redhat.com> wrote:

> On 01/15/2013 08:24 AM, Aldy Hernandez wrote:
>> Ok, it's really an alias.c bug, but it is Alpha, and aoliva has already
>> provided an unreviewed patch...

>> http://gcc.gnu.org/bugzilla/show_bug.cgi?id=55547

> The patch in #C4 is ok.

Thanks, I'm checking it in (first patch below), but reviewing the logic
that uses negative sizes, I found a number of places that should use the
absolute value, and others in which being conservative about negative
sizes is unnecessary (e.g., when dealing with CONST_INT addresses).
That was implemented and regstrapped on x86_64-linux-gnu.  Uros, would
you give the second patch a spin on alpha to make sure it doesn't
regress?  Ok to install it?

On Wed, Jan 16, 2013 at 5:29 AM, Alexandre Oliva <aoliva@redhat.com> wrote:

>> On 01/15/2013 08:24 AM, Aldy Hernandez wrote:
>>> Ok, it's really an alias.c bug, but it is Alpha, and aoliva has already
>>> provided an unreviewed patch...
>
>>> http://gcc.gnu.org/bugzilla/show_bug.cgi?id=55547
>
>> The patch in #C4 is ok.
>
> Thanks, I'm checking it in (first patch below), but reviewing the logic
> that uses negative sizes, I found a number of places that should use the
> absolute value, and others in which being conservative about negative
> sizes is unnecessary (e.g., when dealing with CONST_INT addresses).
> That was implemented and regstrapped on x86_64-linux-gnu.  Uros, would
> you give the second patch a spin on alpha to make sure it doesn't
> regress?  Ok to install it?

Thanks, I started a bootstrap/regtest run. If everything goes as
expected, the results will be available in ~10h from now...

Uros.

On Wed, Jan 16, 2013 at 8:33 AM, Uros Bizjak <ubizjak@gmail.com> wrote:

>>> On 01/15/2013 08:24 AM, Aldy Hernandez wrote:
>>>> Ok, it's really an alias.c bug, but it is Alpha, and aoliva has already
>>>> provided an unreviewed patch...
>>
>>>> http://gcc.gnu.org/bugzilla/show_bug.cgi?id=55547
>>
>>> The patch in #C4 is ok.
>>
>> Thanks, I'm checking it in (first patch below), but reviewing the logic
>> that uses negative sizes, I found a number of places that should use the
>> absolute value, and others in which being conservative about negative
>> sizes is unnecessary (e.g., when dealing with CONST_INT addresses).
>> That was implemented and regstrapped on x86_64-linux-gnu.  Uros, would
>> you give the second patch a spin on alpha to make sure it doesn't
>> regress?  Ok to install it?
>
> Thanks, I started a bootstrap/regtest run. If everything goes as
> expected, the results will be available in ~10h from now...

The results looks good [1], no regressions with patch.

[1] http://gcc.gnu.org/ml/gcc-testresults/2013-01/msg01706.html

Uros.

On 01/15/2013 08:29 PM, Alexandre Oliva wrote:
>     if (rtx_equal_for_memref_p (x, y))
>       {
> -      if (xsize <= 0 || ysize <= 0)
> +      if (xsize == 0 || ysize == 0)
>   	return 1;
> -      if (c >= 0 && xsize > c)
> +      if (c >= 0 && abs (xsize) - c > 0)
>   	return 1;
> -      if (c < 0 && ysize+c > 0)
> +      if (c < 0 && abs (ysize) + c > 0)
>   	return 1;
>         return 0;
>       }
> @@ -2063,7 +2063,8 @@ memrefs_conflict_p (int xsize, rtx x, int ysize, rtx y, HOST_WIDE_INT c)
>   	  y0 = canon_rtx (XEXP (y, 0));
>   	  if (rtx_equal_for_memref_p (x0, y0))
>   	    return (xsize == 0 || ysize == 0
> -		    || (c >= 0 && xsize > c) || (c < 0 && ysize+c > 0));
> +		    || (c >= 0 && abs (xsize) - c > 0)
> +		    || (c < 0 && abs (ysize) + c > 0));
>
>   	  /* Can't properly adjust our sizes.  */
>   	  if (!CONST_INT_P (x1))
> @@ -2119,8 +2120,9 @@ memrefs_conflict_p (int xsize, rtx x, int ysize, rtx y, HOST_WIDE_INT c)
>         if (CONST_INT_P (x) && CONST_INT_P (y))
>   	{
>   	  c += (INTVAL (y) - INTVAL (x));
> -	  return (xsize <= 0 || ysize <= 0
> -		  || (c >= 0 && xsize > c) || (c < 0 && ysize+c > 0));
> +	  return (xsize == 0 || ysize == 0
> +		  || (c >= 0 && abs (xsize) - c > 0)
> +		  || (c < 0 && abs (ysize) + c > 0));
>   	}

I notice that these expressions (including the first hunk that uses ifs) 
are now all the same. It would seem extremely prudent to pull this out 
to a function so that they stay the same.

That said, I question the change of <= to == 0.  If negative, we don't 
know how much overlap there is as far as I can see.


>
>         if (GET_CODE (x) == CONST)
> @@ -2139,7 +2141,8 @@ memrefs_conflict_p (int xsize, rtx x, int ysize, rtx y, HOST_WIDE_INT c)
>         if (CONSTANT_P (y))
>   	return (xsize <= 0 || ysize <= 0
>   		|| (rtx_equal_for_memref_p (x, y)
> -		    && ((c >= 0 && xsize > c) || (c < 0 && ysize+c > 0))));
> +		    && ((c >= 0 && abs (xsize) - c > 0)
> +			|| (c < 0 && abs (ysize) + c > 0))));

This hunk is not needed, as we begin by eliminating <= 0.  So the abs is 
certain to do nothing.


r~

On Jan 16, 2013, Richard Henderson <rth@redhat.com> wrote:

> I notice that these expressions (including the first hunk that uses
> ifs) are now all the same.

*nod*

> It would seem extremely prudent to pull
> this out to a function so that they stay the same.

ack, will do.

> That said, I question the change of <= to == 0.  If negative, we don't
> know how much overlap there is as far as I can see.

Why not?  Since the addresses are constants, and the negative sizes are
just the adjusted sizes, negated to indicate they were conservatively
lengthened by an alignment operation, we can determine that two
references don't overlap if they're far enough from each other that,
even with the alignment adjustment, they're still clearly
non-overlapping.  Say, if x is 0x0fff and y is 0x1234, both originally
referenced with size 8 and x aligned to 0x20, it is obvious that the
accesses won't overlap, in spite of the alignment on x.  The test
applied on constant addresses wouldn't realize that and would say they
could overlap, because any alignment-adjusted size would be mistaken as
“overlaps with anything”.

>> if (GET_CODE (x) == CONST)
>> @@ -2139,7 +2141,8 @@ memrefs_conflict_p (int xsize, rtx x, int ysize, rtx y, HOST_WIDE_INT c)
>> if (CONSTANT_P (y))
>> return (xsize <= 0 || ysize <= 0
>> || (rtx_equal_for_memref_p (x, y)
>> -		    && ((c >= 0 && xsize > c) || (c < 0 && ysize+c > 0))));
>> +		    && ((c >= 0 && abs (xsize) - c > 0)
>> +			|| (c < 0 && abs (ysize) + c > 0))));

> This hunk is not needed, as we begin by eliminating <= 0.  So the abs
> is certain to do nothing.

The function I'll introduce to keep the expressions the same will have
the abs and I'll use it here, but you're right that after testing for
negative sizes they abses won't make much of a difference.

On 2013-01-16 18:40, Alexandre Oliva wrote:
>> That said, I question the change of <= to == 0.  If negative, we don't
>> know how much overlap there is as far as I can see.
>
> Why not?  Since the addresses are constants, and the negative sizes are
> just the adjusted sizes, negated to indicate they were conservatively
> lengthened by an alignment operation...

Oh, right.

>> This hunk is not needed, as we begin by eliminating <= 0.  So the abs
>> is certain to do nothing.
>
> The function I'll introduce to keep the expressions the same will have
> the abs and I'll use it here, but you're right that after testing for
> negative sizes they abses won't make much of a difference.

Sure.


r~

On Jan 16, 2013, Uros Bizjak <ubizjak@gmail.com> wrote:

>> Thanks, I started a bootstrap/regtest run. If everything goes as
>> expected, the results will be available in ~10h from now...

> The results looks good [1], no regressions with patch.

> [1] http://gcc.gnu.org/ml/gcc-testresults/2013-01/msg01706.html

Thanks, the (cosmetically) revised patch is now in.