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Re: [PATCH] Fix vectorizer part of PR81303
On Fri, Dec 8, 2017 at 10:39 AM, Richard Biener <rguenther@suse.de> wrote:
> On Fri, 8 Dec 2017, Bin.Cheng wrote:
>
>> On Fri, Dec 8, 2017 at 9:54 AM, Richard Biener <rguenther@suse.de> wrote:
>> > On Fri, 8 Dec 2017, Bin.Cheng wrote:
>> >
>> >> On Fri, Dec 8, 2017 at 8:29 AM, Richard Biener <rguenther@suse.de> wrote:
>> >> > On Fri, 8 Dec 2017, Christophe Lyon wrote:
>> >> >
>> >> >> On 8 December 2017 at 09:07, Richard Biener <rguenther@suse.de> wrote:
>> >> >> > On Thu, 7 Dec 2017, Bin.Cheng wrote:
>> >> >> >
>> >> >> >> On Wed, Dec 6, 2017 at 1:29 PM, Richard Biener <rguenther@suse.de> wrote:
>> >> >> >> >
>> >> >> >> > The following fixes a vectorization issue that appears when trying
>> >> >> >> > to vectorize the bwaves mat_times_vec kernel after interchange was
>> >> >> >> > performed by the interchange pass. That interchange inserts the
>> >> >> >> > following code for the former reduction created by LIM store-motion:
>> >> >> >> I do observe more cases are vectorized by this patch on AArch64.
>> >> >> >> Still want to find a way not generating the cond_expr, but for the moment
>> >> >> >> I will have another patch make interchange even more conservative for
>> >> >> >> small cases. In which the new cmp/select instructions do cost a lot against
>> >> >> >> the small loop body.
>> >> >> >
>> >> >> > Yeah. I thought about what it takes to avoid the conditional - basically
>> >> >> > we'd need to turn the init value to a (non-nested) loop that we'd need
>> >> >> > to insert on the preheader of the outer loop.
>> >> >> >
>> >> >>
>> >> >> Hi,
>> >> >>
>> >> >> I noticed a regression on aarch64 after Bin's commit r255472:
>> >> >> gcc.target/aarch64/pr62178.c scan-assembler ldr\\tq[0-9]+,
>> >> >> \\[x[0-9]+\\], [0-9]+
>> >> >> gcc.target/aarch64/pr62178.c scan-assembler ldr\\ts[0-9]+,
>> >> >> \\[x[0-9]+, [0-9]+\\]!
>> >> >> gcc.target/aarch64/pr62178.c scan-assembler mla\\tv[0-9]+.4s,
>> >> >> v[0-9]+.4s, v[0-9]+.s\\[0\\]
>> >> >>
>> >> >> Is this patch supposed to fix it?
>> >> >
>> >> > No, from what I can see the patch shouldn't affect it. But it's not
>> >> > clear what the testcase tests for - it just scans assembler.
>> >> > Clearly we want to interchange the loop here so the scan assembler
>> >> I am not very sure. Though interchanging gives better cache behavior,
>> >> but the loop is relatively small here, the introduced cond_expr
>> >> results in two more instructions, as well as one additional memory
>> >> access from undoing reduction. Together with addressing mode chosen
>> >> in ivopts, it leads to obvious regression.
>> >> Ah, another issue is the cond_expr blocks vectorization without your
>> >> patch here. This case is what I meant small loops in which more
>> >> conservative interchange may be wanted.
>> >
>> > The loop has int data and int IVs so my patch shouldn't be necessary
>> > to vectorize the loop.
>> I haven't got time look into vectorizer part yet, but there is below
>> in dump file:
>>
>> pr62178.c:12:7: note: vect_is_simple_use: operand k_9
>> pr62178.c:12:7: note: def_stmt: k_9 = PHI <1(7), k_38(10)>
>> pr62178.c:12:7: note: type of def: external
>> pr62178.c:12:7: note: not vectorized: relevant stmt not supported:
>> r_I_I_lsm.0_19 = k_9 != 1 ? r_I_I_lsm.0_14 : 0;
>> pr62178.c:12:7: note: bad operation or unsupported loop bound.
>> pr62178.c:12:7: note: ***** Re-trying analysis with vector size 8
>
> Yes, so neon doesn't have a way to vectorize such conditionals?
> It does set vect_condition and even vect_cond_mixed though.
It should. IIRC, it was me enables vect_cond* stuff on AArch64? Will
look into it after fixing more urgent bugs.
> You'd have to dive into why it thinks it cannot vectorize it.
>
> I suggest opening a bug if my patch didn't help.
You patch does help vectorizing the loop, but not sure if it's in a
perfect way. I guess vect_factor is a problem here.
Thanks,
bin
>
> Richard.
>
>> Thanks,
>> bin
>> >
>> > Richard.
>> >
>> >> Thanks,
>> >> bin
>> >>
>> >> > needs to be adjusted and one has to revisit PR62178 to check whether
>> >> > the result is still ok (or simply add -fno-loop-interchange to it).
>> >> >
>> >> > Richard.
>> >> >
>> >> >> Thanks,
>> >> >>
>> >> >> Christophe
>> >> >>
>> >> >> > Richard.
>> >> >> >
>> >> >> >> Thanks,
>> >> >> >> bin
>> >> >> >> >
>> >> >> >> > <bb 13> [local count: 161061274]:
>> >> >> >> > # m_58 = PHI <1(10), m_84(20)>
>> >> >> >> > ...
>> >> >> >> > <bb 14> [local count: 912680551]:
>> >> >> >> > # l_35 = PHI <1(13), l_57(21)>
>> >> >> >> > ...
>> >> >> >> > y__I_lsm.113_140 = *y_139(D)[_31];
>> >> >> >> > y__I_lsm.113_94 = m_58 != 1 ? y__I_lsm.113_140 : 0.0;
>> >> >> >> > ...
>> >> >> >> > *y_139(D)[_31] = _101;
>> >> >> >> >
>> >> >> >> >
>> >> >> >> > so we have a COND_EXPR with a test on an integer IV m_58 with
>> >> >> >> > double values. Note that the m_58 != 1 condition is invariant
>> >> >> >> > in the l loop.
>> >> >> >> >
>> >> >> >> > Currently we vectorize this condition using V8SImode vectors
>> >> >> >> > causing a vectorization factor of 8 and thus forcing the scalar
>> >> >> >> > path for the bwaves case (the loops have an iteration count of 5).
>> >> >> >> >
>> >> >> >> > The following patch makes the vectorizer handle invariant conditions
>> >> >> >> > in the first place and second handle widening of operands of invariant
>> >> >> >> > conditions transparently (the promotion will happen on the invariant
>> >> >> >> > scalars). This makes it possible to use a vectorization factor of 4,
>> >> >> >> > reducing the bwaves runtime from 208s before interchange
>> >> >> >> > (via 190s after interchange) to 172s after interchange and vectorization
>> >> >> >> > with AVX256 (on a Haswell machine).
>> >> >> >> >
>> >> >> >> > For the vectorizable_condition part to work I need to avoid
>> >> >> >> > pulling apart the condition from the COND_EXPR during pattern
>> >> >> >> > detection.
>> >> >> >> >
>> >> >> >> > Bootstrapped on x86_64-unknown-linux-gnu, testing in progress.
>> >> >> >> >
>> >> >> >> > Richard.
>> >> >> >> >
>> >> >> >> > 2017-12-06 Richard Biener <rguenther@suse.de>
>> >> >> >> >
>> >> >> >> > PR tree-optimization/81303
>> >> >> >> > * tree-vect-stmts.c (vect_is_simple_cond): For invariant
>> >> >> >> > conditions try to create a comparison vector type matching
>> >> >> >> > the data vector type.
>> >> >> >> > (vectorizable_condition): Adjust.
>> >> >> >> > * tree-vect-patterns.c (vect_recog_mask_conversion_pattern):
>> >> >> >> > Leave invariant conditions alone in case we can vectorize those.
>> >> >> >> >
>> >> >> >> > * gcc.target/i386/vectorize9.c: New testcase.
>> >> >> >> > * gcc.target/i386/vectorize10.c: New testcase.
>> >> >> >> >
>> >> >> >> > Index: gcc/tree-vect-stmts.c
>> >> >> >> > ===================================================================
>> >> >> >> > --- gcc/tree-vect-stmts.c (revision 255438)
>> >> >> >> > +++ gcc/tree-vect-stmts.c (working copy)
>> >> >> >> > @@ -7792,7 +7792,8 @@ vectorizable_load (gimple *stmt, gimple_
>> >> >> >> >
>> >> >> >> > static bool
>> >> >> >> > vect_is_simple_cond (tree cond, vec_info *vinfo,
>> >> >> >> > - tree *comp_vectype, enum vect_def_type *dts)
>> >> >> >> > + tree *comp_vectype, enum vect_def_type *dts,
>> >> >> >> > + tree vectype)
>> >> >> >> > {
>> >> >> >> > tree lhs, rhs;
>> >> >> >> > tree vectype1 = NULL_TREE, vectype2 = NULL_TREE;
>> >> >> >> > @@ -7845,6 +7846,20 @@ vect_is_simple_cond (tree cond, vec_info
>> >> >> >> > return false;
>> >> >> >> >
>> >> >> >> > *comp_vectype = vectype1 ? vectype1 : vectype2;
>> >> >> >> > + /* Invariant comparison. */
>> >> >> >> > + if (! *comp_vectype)
>> >> >> >> > + {
>> >> >> >> > + tree scalar_type = TREE_TYPE (lhs);
>> >> >> >> > + /* If we can widen the comparison to match vectype do so. */
>> >> >> >> > + if (INTEGRAL_TYPE_P (scalar_type)
>> >> >> >> > + && tree_int_cst_lt (TYPE_SIZE (scalar_type),
>> >> >> >> > + TYPE_SIZE (TREE_TYPE (vectype))))
>> >> >> >> > + scalar_type = build_nonstandard_integer_type
>> >> >> >> > + (tree_to_uhwi (TYPE_SIZE (TREE_TYPE (vectype))),
>> >> >> >> > + TYPE_UNSIGNED (scalar_type));
>> >> >> >> > + *comp_vectype = get_vectype_for_scalar_type (scalar_type);
>> >> >> >> > + }
>> >> >> >> > +
>> >> >> >> > return true;
>> >> >> >> > }
>> >> >> >> >
>> >> >> >> > @@ -7942,7 +7957,7 @@ vectorizable_condition (gimple *stmt, gi
>> >> >> >> > else_clause = gimple_assign_rhs3 (stmt);
>> >> >> >> >
>> >> >> >> > if (!vect_is_simple_cond (cond_expr, stmt_info->vinfo,
>> >> >> >> > - &comp_vectype, &dts[0])
>> >> >> >> > + &comp_vectype, &dts[0], vectype)
>> >> >> >> > || !comp_vectype)
>> >> >> >> > return false;
>> >> >> >> >
>> >> >> >> > Index: gcc/tree-vect-patterns.c
>> >> >> >> > ===================================================================
>> >> >> >> > --- gcc/tree-vect-patterns.c (revision 255438)
>> >> >> >> > +++ gcc/tree-vect-patterns.c (working copy)
>> >> >> >> > @@ -3976,6 +3976,32 @@ vect_recog_mask_conversion_pattern (vec<
>> >> >> >> > || TYPE_VECTOR_SUBPARTS (vectype1) == TYPE_VECTOR_SUBPARTS (vectype2))
>> >> >> >> > return NULL;
>> >> >> >> >
>> >> >> >> > + /* If rhs1 is invariant and we can promote it leave the COND_EXPR
>> >> >> >> > + in place, we can handle it in vectorizable_condition. This avoids
>> >> >> >> > + unnecessary promotion stmts and increased vectorization factor. */
>> >> >> >> > + if (COMPARISON_CLASS_P (rhs1)
>> >> >> >> > + && INTEGRAL_TYPE_P (rhs1_type)
>> >> >> >> > + && TYPE_VECTOR_SUBPARTS (vectype1) < TYPE_VECTOR_SUBPARTS (vectype2))
>> >> >> >> > + {
>> >> >> >> > + gimple *dummy;
>> >> >> >> > + enum vect_def_type dt;
>> >> >> >> > + if (vect_is_simple_use (TREE_OPERAND (rhs1, 0), stmt_vinfo->vinfo,
>> >> >> >> > + &dummy, &dt)
>> >> >> >> > + && dt == vect_external_def
>> >> >> >> > + && vect_is_simple_use (TREE_OPERAND (rhs1, 1), stmt_vinfo->vinfo,
>> >> >> >> > + &dummy, &dt)
>> >> >> >> > + && (dt == vect_external_def
>> >> >> >> > + || dt == vect_constant_def))
>> >> >> >> > + {
>> >> >> >> > + tree wide_scalar_type = build_nonstandard_integer_type
>> >> >> >> > + (tree_to_uhwi (TYPE_SIZE (TREE_TYPE (vectype1))),
>> >> >> >> > + TYPE_UNSIGNED (rhs1_type));
>> >> >> >> > + tree vectype3 = get_vectype_for_scalar_type (wide_scalar_type);
>> >> >> >> > + if (expand_vec_cond_expr_p (vectype1, vectype3, TREE_CODE (rhs1)))
>> >> >> >> > + return NULL;
>> >> >> >> > + }
>> >> >> >> > + }
>> >> >> >> > +
>> >> >> >> > /* If rhs1 is a comparison we need to move it into a
>> >> >> >> > separate statement. */
>> >> >> >> > if (TREE_CODE (rhs1) != SSA_NAME)
>> >> >> >> > Index: gcc/testsuite/gcc.target/i386/vectorize9.c
>> >> >> >> > ===================================================================
>> >> >> >> > --- gcc/testsuite/gcc.target/i386/vectorize9.c (nonexistent)
>> >> >> >> > +++ gcc/testsuite/gcc.target/i386/vectorize9.c (working copy)
>> >> >> >> > @@ -0,0 +1,16 @@
>> >> >> >> > +/* { dg-do compile } */
>> >> >> >> > +/* { dg-options "-O -ftree-loop-vectorize -fdump-tree-vect-details -fno-tree-loop-im -mavx2 -mprefer-vector-width=256" } */
>> >> >> >> > +
>> >> >> >> > +double x[1024][1024], red[1024];
>> >> >> >> > +void foo (void)
>> >> >> >> > +{
>> >> >> >> > + for (int i = 0; i < 1024; ++i)
>> >> >> >> > + for (int j = 0; j < 1024; ++j)
>> >> >> >> > + {
>> >> >> >> > + double v = i == 0 ? 0.0 : red[j];
>> >> >> >> > + v = v + x[i][j];
>> >> >> >> > + red[j] = v;
>> >> >> >> > + }
>> >> >> >> > +}
>> >> >> >> > +
>> >> >> >> > +/* { dg-final { scan-tree-dump "vectorization factor = 4" "vect" } } */
>> >> >> >> > Index: gcc/testsuite/gcc.target/i386/vectorize10.c
>> >> >> >> > ===================================================================
>> >> >> >> > --- gcc/testsuite/gcc.target/i386/vectorize10.c (nonexistent)
>> >> >> >> > +++ gcc/testsuite/gcc.target/i386/vectorize10.c (working copy)
>> >> >> >> > @@ -0,0 +1,16 @@
>> >> >> >> > +/* { dg-do compile } */
>> >> >> >> > +/* { dg-options "-O -ftree-loop-vectorize -fdump-tree-vect-details -fno-tree-loop-im -msse2 -mno-avx" } */
>> >> >> >> > +
>> >> >> >> > +double x[1024][1024], red[1024];
>> >> >> >> > +void foo (void)
>> >> >> >> > +{
>> >> >> >> > + for (int i = 0; i < 1024; ++i)
>> >> >> >> > + for (int j = 0; j < 1024; ++j)
>> >> >> >> > + {
>> >> >> >> > + double v = i == 0 ? 0.0 : red[j];
>> >> >> >> > + v = v + x[i][j];
>> >> >> >> > + red[j] = v;
>> >> >> >> > + }
>> >> >> >> > +}
>> >> >> >> > +
>> >> >> >> > +/* { dg-final { scan-tree-dump "vectorized 1 loops" "vect" } } */
>> >> >> >>
>> >> >> >>
>> >> >> >
>> >> >> > --
>> >> >> > Richard Biener <rguenther@suse.de>
>> >> >> > SUSE LINUX GmbH, GF: Felix Imendoerffer, Jane Smithard, Graham Norton, HRB 21284 (AG Nuernberg)
>> >> >>
>> >> >>
>> >> >
>> >> > --
>> >> > Richard Biener <rguenther@suse.de>
>> >> > SUSE LINUX GmbH, GF: Felix Imendoerffer, Jane Smithard, Graham Norton, HRB 21284 (AG Nuernberg)
>> >>
>> >>
>> >
>> > --
>> > Richard Biener <rguenther@suse.de>
>> > SUSE LINUX GmbH, GF: Felix Imendoerffer, Jane Smithard, Graham Norton, HRB 21284 (AG Nuernberg)
>>
>>
>
> --
> Richard Biener <rguenther@suse.de>
> SUSE LINUX GmbH, GF: Felix Imendoerffer, Jane Smithard, Graham Norton, HRB 21284 (AG Nuernberg)