[2/3] vect: Move VMAT_LOAD_STORE_LANES handlings from final loop nest
Checks
Commit Message
Hi,
Like commit r14-3214 which moves the handlings on memory
access type VMAT_LOAD_STORE_LANES in vectorizable_load
final loop nest, this one is to deal with the function
vectorizable_store.
Bootstrapped and regtested on x86_64-redhat-linux,
aarch64-linux-gnu and powerpc64{,le}-linux-gnu.
Is it ok for trunk?
BR,
Kewen
-----
gcc/ChangeLog:
* tree-vect-stmts.cc (vectorizable_store): Move the handlings on
VMAT_LOAD_STORE_LANES in the final loop nest to its own loop,
and update the final nest accordingly.
---
gcc/tree-vect-stmts.cc | 732 ++++++++++++++++++++++-------------------
1 file changed, 387 insertions(+), 345 deletions(-)
--
2.31.1
Comments
On Tue, Aug 22, 2023 at 10:49 AM Kewen.Lin <linkw@linux.ibm.com> wrote:
>
> Hi,
>
> Like commit r14-3214 which moves the handlings on memory
> access type VMAT_LOAD_STORE_LANES in vectorizable_load
> final loop nest, this one is to deal with the function
> vectorizable_store.
>
> Bootstrapped and regtested on x86_64-redhat-linux,
> aarch64-linux-gnu and powerpc64{,le}-linux-gnu.
>
> Is it ok for trunk?
OK.
> BR,
> Kewen
> -----
>
> gcc/ChangeLog:
>
> * tree-vect-stmts.cc (vectorizable_store): Move the handlings on
> VMAT_LOAD_STORE_LANES in the final loop nest to its own loop,
> and update the final nest accordingly.
> ---
> gcc/tree-vect-stmts.cc | 732 ++++++++++++++++++++++-------------------
> 1 file changed, 387 insertions(+), 345 deletions(-)
>
> diff --git a/gcc/tree-vect-stmts.cc b/gcc/tree-vect-stmts.cc
> index fcaa4127e52..18f5ebcc09c 100644
> --- a/gcc/tree-vect-stmts.cc
> +++ b/gcc/tree-vect-stmts.cc
> @@ -8779,42 +8779,29 @@ vectorizable_store (vec_info *vinfo,
> */
>
> auto_vec<tree> dr_chain (group_size);
> - auto_vec<tree> result_chain (group_size);
> auto_vec<tree> vec_masks;
> tree vec_mask = NULL;
> - auto_vec<tree> vec_offsets;
> auto_delete_vec<auto_vec<tree>> gvec_oprnds (group_size);
> for (i = 0; i < group_size; i++)
> gvec_oprnds.quick_push (new auto_vec<tree> (ncopies));
> - auto_vec<tree, 1> vec_oprnds;
> - for (j = 0; j < ncopies; j++)
> +
> + if (memory_access_type == VMAT_LOAD_STORE_LANES)
> {
> - gimple *new_stmt;
> - if (j == 0)
> + gcc_assert (!slp && grouped_store);
> + for (j = 0; j < ncopies; j++)
> {
> - if (slp)
> - {
> - /* Get vectorized arguments for SLP_NODE. */
> - vect_get_vec_defs (vinfo, stmt_info, slp_node, 1,
> - op, &vec_oprnds);
> - vec_oprnd = vec_oprnds[0];
> - }
> - else
> - {
> - /* For interleaved stores we collect vectorized defs for all the
> - stores in the group in DR_CHAIN. DR_CHAIN is then used as an
> - input to vect_permute_store_chain().
> -
> - If the store is not grouped, DR_GROUP_SIZE is 1, and DR_CHAIN
> - is of size 1. */
> + gimple *new_stmt;
> + if (j == 0)
> + {
> + /* For interleaved stores we collect vectorized defs for all
> + the stores in the group in DR_CHAIN. DR_CHAIN is then used
> + as an input to vect_permute_store_chain(). */
> stmt_vec_info next_stmt_info = first_stmt_info;
> for (i = 0; i < group_size; i++)
> {
> /* Since gaps are not supported for interleaved stores,
> - DR_GROUP_SIZE is the exact number of stmts in the chain.
> - Therefore, NEXT_STMT_INFO can't be NULL_TREE. In case
> - that there is no interleaving, DR_GROUP_SIZE is 1,
> - and only one iteration of the loop will be executed. */
> + DR_GROUP_SIZE is the exact number of stmts in the
> + chain. Therefore, NEXT_STMT_INFO can't be NULL_TREE. */
> op = vect_get_store_rhs (next_stmt_info);
> vect_get_vec_defs_for_operand (vinfo, next_stmt_info, ncopies,
> op, gvec_oprnds[i]);
> @@ -8825,66 +8812,37 @@ vectorizable_store (vec_info *vinfo,
> if (mask)
> {
> vect_get_vec_defs_for_operand (vinfo, stmt_info, ncopies,
> - mask, &vec_masks, mask_vectype);
> + mask, &vec_masks,
> + mask_vectype);
> vec_mask = vec_masks[0];
> }
> - }
>
> - /* We should have catched mismatched types earlier. */
> - gcc_assert (useless_type_conversion_p (vectype,
> - TREE_TYPE (vec_oprnd)));
> - bool simd_lane_access_p
> - = STMT_VINFO_SIMD_LANE_ACCESS_P (stmt_info) != 0;
> - if (simd_lane_access_p
> - && !loop_masks
> - && TREE_CODE (DR_BASE_ADDRESS (first_dr_info->dr)) == ADDR_EXPR
> - && VAR_P (TREE_OPERAND (DR_BASE_ADDRESS (first_dr_info->dr), 0))
> - && integer_zerop (get_dr_vinfo_offset (vinfo, first_dr_info))
> - && integer_zerop (DR_INIT (first_dr_info->dr))
> - && alias_sets_conflict_p (get_alias_set (aggr_type),
> - get_alias_set (TREE_TYPE (ref_type))))
> - {
> - dataref_ptr = unshare_expr (DR_BASE_ADDRESS (first_dr_info->dr));
> - dataref_offset = build_int_cst (ref_type, 0);
> + /* We should have catched mismatched types earlier. */
> + gcc_assert (
> + useless_type_conversion_p (vectype, TREE_TYPE (vec_oprnd)));
> + dataref_ptr
> + = vect_create_data_ref_ptr (vinfo, first_stmt_info, aggr_type,
> + NULL, offset, &dummy, gsi,
> + &ptr_incr, false, bump);
> }
> - else if (STMT_VINFO_GATHER_SCATTER_P (stmt_info))
> - vect_get_gather_scatter_ops (loop_vinfo, loop, stmt_info,
> - slp_node, &gs_info, &dataref_ptr,
> - &vec_offsets);
> else
> - dataref_ptr
> - = vect_create_data_ref_ptr (vinfo, first_stmt_info, aggr_type,
> - simd_lane_access_p ? loop : NULL,
> - offset, &dummy, gsi, &ptr_incr,
> - simd_lane_access_p, bump);
> - }
> - else
> - {
> - gcc_assert (!LOOP_VINFO_USING_SELECT_VL_P (loop_vinfo));
> - /* DR_CHAIN is then used as an input to vect_permute_store_chain().
> - If the store is not grouped, DR_GROUP_SIZE is 1, and DR_CHAIN is
> - of size 1. */
> - for (i = 0; i < group_size; i++)
> {
> - vec_oprnd = (*gvec_oprnds[i])[j];
> - dr_chain[i] = vec_oprnd;
> + gcc_assert (!LOOP_VINFO_USING_SELECT_VL_P (loop_vinfo));
> + /* DR_CHAIN is then used as an input to
> + vect_permute_store_chain(). */
> + for (i = 0; i < group_size; i++)
> + {
> + vec_oprnd = (*gvec_oprnds[i])[j];
> + dr_chain[i] = vec_oprnd;
> + }
> + if (mask)
> + vec_mask = vec_masks[j];
> + dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr, gsi,
> + stmt_info, bump);
> }
> - if (mask)
> - vec_mask = vec_masks[j];
> - if (dataref_offset)
> - dataref_offset
> - = int_const_binop (PLUS_EXPR, dataref_offset, bump);
> - else if (!STMT_VINFO_GATHER_SCATTER_P (stmt_info))
> - dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr, gsi,
> - stmt_info, bump);
> - }
> -
> - if (memory_access_type == VMAT_LOAD_STORE_LANES)
> - {
> - tree vec_array;
>
> /* Get an array into which we can store the individual vectors. */
> - vec_array = create_vector_array (vectype, vec_num);
> + tree vec_array = create_vector_array (vectype, vec_num);
>
> /* Invalidate the current contents of VEC_ARRAY. This should
> become an RTL clobber too, which prevents the vector registers
> @@ -8895,8 +8853,8 @@ vectorizable_store (vec_info *vinfo,
> for (i = 0; i < vec_num; i++)
> {
> vec_oprnd = dr_chain[i];
> - write_vector_array (vinfo, stmt_info,
> - gsi, vec_oprnd, vec_array, i);
> + write_vector_array (vinfo, stmt_info, gsi, vec_oprnd, vec_array,
> + i);
> }
>
> tree final_mask = NULL;
> @@ -8906,8 +8864,8 @@ vectorizable_store (vec_info *vinfo,
> final_mask = vect_get_loop_mask (loop_vinfo, gsi, loop_masks,
> ncopies, vectype, j);
> if (vec_mask)
> - final_mask = prepare_vec_mask (loop_vinfo, mask_vectype,
> - final_mask, vec_mask, gsi);
> + final_mask = prepare_vec_mask (loop_vinfo, mask_vectype, final_mask,
> + vec_mask, gsi);
>
> if (lanes_ifn == IFN_MASK_LEN_STORE_LANES)
> {
> @@ -8955,8 +8913,7 @@ vectorizable_store (vec_info *vinfo,
> /* Emit:
> MEM_REF[...all elements...] = STORE_LANES (VEC_ARRAY). */
> data_ref = create_array_ref (aggr_type, dataref_ptr, ref_type);
> - call = gimple_build_call_internal (IFN_STORE_LANES, 1,
> - vec_array);
> + call = gimple_build_call_internal (IFN_STORE_LANES, 1, vec_array);
> gimple_call_set_lhs (call, data_ref);
> }
> gimple_call_set_nothrow (call, true);
> @@ -8965,301 +8922,386 @@ vectorizable_store (vec_info *vinfo,
>
> /* Record that VEC_ARRAY is now dead. */
> vect_clobber_variable (vinfo, stmt_info, gsi, vec_array);
> + if (j == 0)
> + *vec_stmt = new_stmt;
> + STMT_VINFO_VEC_STMTS (stmt_info).safe_push (new_stmt);
> }
> - else
> - {
> - new_stmt = NULL;
> - if (grouped_store)
> - /* Permute. */
> - vect_permute_store_chain (vinfo, dr_chain, group_size, stmt_info,
> - gsi, &result_chain);
>
> - stmt_vec_info next_stmt_info = first_stmt_info;
> - for (i = 0; i < vec_num; i++)
> - {
> - unsigned misalign;
> - unsigned HOST_WIDE_INT align;
> + return true;
> + }
>
> - tree final_mask = NULL_TREE;
> - tree final_len = NULL_TREE;
> - tree bias = NULL_TREE;
> - if (loop_masks)
> - final_mask = vect_get_loop_mask (loop_vinfo, gsi, loop_masks,
> - vec_num * ncopies,
> - vectype, vec_num * j + i);
> - if (vec_mask)
> - final_mask = prepare_vec_mask (loop_vinfo, mask_vectype,
> - final_mask, vec_mask, gsi);
> + auto_vec<tree> result_chain (group_size);
> + auto_vec<tree> vec_offsets;
> + auto_vec<tree, 1> vec_oprnds;
> + for (j = 0; j < ncopies; j++)
> + {
> + gimple *new_stmt;
> + if (j == 0)
> + {
> + if (slp)
> + {
> + /* Get vectorized arguments for SLP_NODE. */
> + vect_get_vec_defs (vinfo, stmt_info, slp_node, 1, op,
> + &vec_oprnds);
> + vec_oprnd = vec_oprnds[0];
> + }
> + else
> + {
> + /* For interleaved stores we collect vectorized defs for all the
> + stores in the group in DR_CHAIN. DR_CHAIN is then used as an
> + input to vect_permute_store_chain().
>
> - if (memory_access_type == VMAT_GATHER_SCATTER
> - && gs_info.ifn != IFN_LAST)
> + If the store is not grouped, DR_GROUP_SIZE is 1, and DR_CHAIN
> + is of size 1. */
> + stmt_vec_info next_stmt_info = first_stmt_info;
> + for (i = 0; i < group_size; i++)
> {
> - if (STMT_VINFO_GATHER_SCATTER_P (stmt_info))
> - vec_offset = vec_offsets[vec_num * j + i];
> - tree scale = size_int (gs_info.scale);
> -
> - if (gs_info.ifn == IFN_MASK_LEN_SCATTER_STORE)
> - {
> - if (loop_lens)
> - final_len
> - = vect_get_loop_len (loop_vinfo, gsi, loop_lens,
> - vec_num * ncopies, vectype,
> - vec_num * j + i, 1);
> - else
> - final_len
> - = build_int_cst (sizetype,
> - TYPE_VECTOR_SUBPARTS (vectype));
> - signed char biasval
> - = LOOP_VINFO_PARTIAL_LOAD_STORE_BIAS (loop_vinfo);
> - bias = build_int_cst (intQI_type_node, biasval);
> - if (!final_mask)
> - {
> - mask_vectype = truth_type_for (vectype);
> - final_mask = build_minus_one_cst (mask_vectype);
> - }
> - }
> -
> - gcall *call;
> - if (final_len && final_mask)
> - call
> - = gimple_build_call_internal (IFN_MASK_LEN_SCATTER_STORE,
> - 7, dataref_ptr, vec_offset,
> - scale, vec_oprnd, final_mask,
> - final_len, bias);
> - else if (final_mask)
> - call = gimple_build_call_internal
> - (IFN_MASK_SCATTER_STORE, 5, dataref_ptr, vec_offset,
> - scale, vec_oprnd, final_mask);
> - else
> - call = gimple_build_call_internal
> - (IFN_SCATTER_STORE, 4, dataref_ptr, vec_offset,
> - scale, vec_oprnd);
> - gimple_call_set_nothrow (call, true);
> - vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
> - new_stmt = call;
> - break;
> + /* Since gaps are not supported for interleaved stores,
> + DR_GROUP_SIZE is the exact number of stmts in the chain.
> + Therefore, NEXT_STMT_INFO can't be NULL_TREE. In case
> + that there is no interleaving, DR_GROUP_SIZE is 1,
> + and only one iteration of the loop will be executed. */
> + op = vect_get_store_rhs (next_stmt_info);
> + vect_get_vec_defs_for_operand (vinfo, next_stmt_info, ncopies,
> + op, gvec_oprnds[i]);
> + vec_oprnd = (*gvec_oprnds[i])[0];
> + dr_chain.quick_push (vec_oprnd);
> + next_stmt_info = DR_GROUP_NEXT_ELEMENT (next_stmt_info);
> }
> - else if (memory_access_type == VMAT_GATHER_SCATTER)
> + if (mask)
> {
> - /* Emulated scatter. */
> - gcc_assert (!final_mask);
> - unsigned HOST_WIDE_INT const_nunits = nunits.to_constant ();
> - unsigned HOST_WIDE_INT const_offset_nunits
> - = TYPE_VECTOR_SUBPARTS (gs_info.offset_vectype)
> - .to_constant ();
> - vec<constructor_elt, va_gc> *ctor_elts;
> - vec_alloc (ctor_elts, const_nunits);
> - gimple_seq stmts = NULL;
> - tree elt_type = TREE_TYPE (vectype);
> - unsigned HOST_WIDE_INT elt_size
> - = tree_to_uhwi (TYPE_SIZE (elt_type));
> - /* We support offset vectors with more elements
> - than the data vector for now. */
> - unsigned HOST_WIDE_INT factor
> - = const_offset_nunits / const_nunits;
> - vec_offset = vec_offsets[j / factor];
> - unsigned elt_offset = (j % factor) * const_nunits;
> - tree idx_type = TREE_TYPE (TREE_TYPE (vec_offset));
> - tree scale = size_int (gs_info.scale);
> - align = get_object_alignment (DR_REF (first_dr_info->dr));
> - tree ltype = build_aligned_type (TREE_TYPE (vectype), align);
> - for (unsigned k = 0; k < const_nunits; ++k)
> - {
> - /* Compute the offsetted pointer. */
> - tree boff = size_binop (MULT_EXPR, TYPE_SIZE (idx_type),
> - bitsize_int (k + elt_offset));
> - tree idx = gimple_build (&stmts, BIT_FIELD_REF,
> - idx_type, vec_offset,
> - TYPE_SIZE (idx_type), boff);
> - idx = gimple_convert (&stmts, sizetype, idx);
> - idx = gimple_build (&stmts, MULT_EXPR,
> - sizetype, idx, scale);
> - tree ptr = gimple_build (&stmts, PLUS_EXPR,
> - TREE_TYPE (dataref_ptr),
> - dataref_ptr, idx);
> - ptr = gimple_convert (&stmts, ptr_type_node, ptr);
> - /* Extract the element to be stored. */
> - tree elt = gimple_build (&stmts, BIT_FIELD_REF,
> - TREE_TYPE (vectype), vec_oprnd,
> - TYPE_SIZE (elt_type),
> - bitsize_int (k * elt_size));
> - gsi_insert_seq_before (gsi, stmts, GSI_SAME_STMT);
> - stmts = NULL;
> - tree ref = build2 (MEM_REF, ltype, ptr,
> - build_int_cst (ref_type, 0));
> - new_stmt = gimple_build_assign (ref, elt);
> - vect_finish_stmt_generation (vinfo, stmt_info,
> - new_stmt, gsi);
> - }
> - break;
> + vect_get_vec_defs_for_operand (vinfo, stmt_info, ncopies,
> + mask, &vec_masks,
> + mask_vectype);
> + vec_mask = vec_masks[0];
> }
> + }
>
> - if (i > 0)
> - /* Bump the vector pointer. */
> - dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr,
> - gsi, stmt_info, bump);
> + /* We should have catched mismatched types earlier. */
> + gcc_assert (useless_type_conversion_p (vectype,
> + TREE_TYPE (vec_oprnd)));
> + bool simd_lane_access_p
> + = STMT_VINFO_SIMD_LANE_ACCESS_P (stmt_info) != 0;
> + if (simd_lane_access_p
> + && !loop_masks
> + && TREE_CODE (DR_BASE_ADDRESS (first_dr_info->dr)) == ADDR_EXPR
> + && VAR_P (TREE_OPERAND (DR_BASE_ADDRESS (first_dr_info->dr), 0))
> + && integer_zerop (get_dr_vinfo_offset (vinfo, first_dr_info))
> + && integer_zerop (DR_INIT (first_dr_info->dr))
> + && alias_sets_conflict_p (get_alias_set (aggr_type),
> + get_alias_set (TREE_TYPE (ref_type))))
> + {
> + dataref_ptr = unshare_expr (DR_BASE_ADDRESS (first_dr_info->dr));
> + dataref_offset = build_int_cst (ref_type, 0);
> + }
> + else if (STMT_VINFO_GATHER_SCATTER_P (stmt_info))
> + vect_get_gather_scatter_ops (loop_vinfo, loop, stmt_info, slp_node,
> + &gs_info, &dataref_ptr, &vec_offsets);
> + else
> + dataref_ptr
> + = vect_create_data_ref_ptr (vinfo, first_stmt_info, aggr_type,
> + simd_lane_access_p ? loop : NULL,
> + offset, &dummy, gsi, &ptr_incr,
> + simd_lane_access_p, bump);
> + }
> + else
> + {
> + gcc_assert (!LOOP_VINFO_USING_SELECT_VL_P (loop_vinfo));
> + /* DR_CHAIN is then used as an input to vect_permute_store_chain().
> + If the store is not grouped, DR_GROUP_SIZE is 1, and DR_CHAIN is
> + of size 1. */
> + for (i = 0; i < group_size; i++)
> + {
> + vec_oprnd = (*gvec_oprnds[i])[j];
> + dr_chain[i] = vec_oprnd;
> + }
> + if (mask)
> + vec_mask = vec_masks[j];
> + if (dataref_offset)
> + dataref_offset = int_const_binop (PLUS_EXPR, dataref_offset, bump);
> + else if (!STMT_VINFO_GATHER_SCATTER_P (stmt_info))
> + dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr, gsi,
> + stmt_info, bump);
> + }
>
> - if (slp)
> - vec_oprnd = vec_oprnds[i];
> - else if (grouped_store)
> - /* For grouped stores vectorized defs are interleaved in
> - vect_permute_store_chain(). */
> - vec_oprnd = result_chain[i];
> + new_stmt = NULL;
> + if (grouped_store)
> + /* Permute. */
> + vect_permute_store_chain (vinfo, dr_chain, group_size, stmt_info, gsi,
> + &result_chain);
>
> - align = known_alignment (DR_TARGET_ALIGNMENT (first_dr_info));
> - if (alignment_support_scheme == dr_aligned)
> - misalign = 0;
> - else if (misalignment == DR_MISALIGNMENT_UNKNOWN)
> - {
> - align = dr_alignment (vect_dr_behavior (vinfo, first_dr_info));
> - misalign = 0;
> - }
> - else
> - misalign = misalignment;
> - if (dataref_offset == NULL_TREE
> - && TREE_CODE (dataref_ptr) == SSA_NAME)
> - set_ptr_info_alignment (get_ptr_info (dataref_ptr), align,
> - misalign);
> - align = least_bit_hwi (misalign | align);
> -
> - if (memory_access_type == VMAT_CONTIGUOUS_REVERSE)
> - {
> - tree perm_mask = perm_mask_for_reverse (vectype);
> - tree perm_dest = vect_create_destination_var
> - (vect_get_store_rhs (stmt_info), vectype);
> - tree new_temp = make_ssa_name (perm_dest);
> -
> - /* Generate the permute statement. */
> - gimple *perm_stmt
> - = gimple_build_assign (new_temp, VEC_PERM_EXPR, vec_oprnd,
> - vec_oprnd, perm_mask);
> - vect_finish_stmt_generation (vinfo, stmt_info, perm_stmt, gsi);
> -
> - perm_stmt = SSA_NAME_DEF_STMT (new_temp);
> - vec_oprnd = new_temp;
> - }
> + stmt_vec_info next_stmt_info = first_stmt_info;
> + for (i = 0; i < vec_num; i++)
> + {
> + unsigned misalign;
> + unsigned HOST_WIDE_INT align;
>
> - /* Compute IFN when LOOP_LENS or final_mask valid. */
> - machine_mode vmode = TYPE_MODE (vectype);
> - machine_mode new_vmode = vmode;
> - internal_fn partial_ifn = IFN_LAST;
> - if (loop_lens)
> - {
> - opt_machine_mode new_ovmode
> - = get_len_load_store_mode (vmode, false, &partial_ifn);
> - new_vmode = new_ovmode.require ();
> - unsigned factor
> - = (new_ovmode == vmode) ? 1 : GET_MODE_UNIT_SIZE (vmode);
> - final_len = vect_get_loop_len (loop_vinfo, gsi, loop_lens,
> - vec_num * ncopies, vectype,
> - vec_num * j + i, factor);
> - }
> - else if (final_mask)
> - {
> - if (!can_vec_mask_load_store_p (vmode,
> - TYPE_MODE (TREE_TYPE (final_mask)),
> - false, &partial_ifn))
> - gcc_unreachable ();
> - }
> + tree final_mask = NULL_TREE;
> + tree final_len = NULL_TREE;
> + tree bias = NULL_TREE;
> + if (loop_masks)
> + final_mask = vect_get_loop_mask (loop_vinfo, gsi, loop_masks,
> + vec_num * ncopies, vectype,
> + vec_num * j + i);
> + if (vec_mask)
> + final_mask = prepare_vec_mask (loop_vinfo, mask_vectype, final_mask,
> + vec_mask, gsi);
>
> - if (partial_ifn == IFN_MASK_LEN_STORE)
> + if (memory_access_type == VMAT_GATHER_SCATTER
> + && gs_info.ifn != IFN_LAST)
> + {
> + if (STMT_VINFO_GATHER_SCATTER_P (stmt_info))
> + vec_offset = vec_offsets[vec_num * j + i];
> + tree scale = size_int (gs_info.scale);
> +
> + if (gs_info.ifn == IFN_MASK_LEN_SCATTER_STORE)
> {
> - if (!final_len)
> - {
> - /* Pass VF value to 'len' argument of
> - MASK_LEN_STORE if LOOP_LENS is invalid. */
> - final_len = size_int (TYPE_VECTOR_SUBPARTS (vectype));
> - }
> + if (loop_lens)
> + final_len = vect_get_loop_len (loop_vinfo, gsi, loop_lens,
> + vec_num * ncopies, vectype,
> + vec_num * j + i, 1);
> + else
> + final_len = build_int_cst (sizetype,
> + TYPE_VECTOR_SUBPARTS (vectype));
> + signed char biasval
> + = LOOP_VINFO_PARTIAL_LOAD_STORE_BIAS (loop_vinfo);
> + bias = build_int_cst (intQI_type_node, biasval);
> if (!final_mask)
> {
> - /* Pass all ones value to 'mask' argument of
> - MASK_LEN_STORE if final_mask is invalid. */
> mask_vectype = truth_type_for (vectype);
> final_mask = build_minus_one_cst (mask_vectype);
> }
> }
> - if (final_len)
> - {
> - signed char biasval
> - = LOOP_VINFO_PARTIAL_LOAD_STORE_BIAS (loop_vinfo);
>
> - bias = build_int_cst (intQI_type_node, biasval);
> + gcall *call;
> + if (final_len && final_mask)
> + call = gimple_build_call_internal (IFN_MASK_LEN_SCATTER_STORE,
> + 7, dataref_ptr, vec_offset,
> + scale, vec_oprnd, final_mask,
> + final_len, bias);
> + else if (final_mask)
> + call
> + = gimple_build_call_internal (IFN_MASK_SCATTER_STORE, 5,
> + dataref_ptr, vec_offset, scale,
> + vec_oprnd, final_mask);
> + else
> + call = gimple_build_call_internal (IFN_SCATTER_STORE, 4,
> + dataref_ptr, vec_offset,
> + scale, vec_oprnd);
> + gimple_call_set_nothrow (call, true);
> + vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
> + new_stmt = call;
> + break;
> + }
> + else if (memory_access_type == VMAT_GATHER_SCATTER)
> + {
> + /* Emulated scatter. */
> + gcc_assert (!final_mask);
> + unsigned HOST_WIDE_INT const_nunits = nunits.to_constant ();
> + unsigned HOST_WIDE_INT const_offset_nunits
> + = TYPE_VECTOR_SUBPARTS (gs_info.offset_vectype).to_constant ();
> + vec<constructor_elt, va_gc> *ctor_elts;
> + vec_alloc (ctor_elts, const_nunits);
> + gimple_seq stmts = NULL;
> + tree elt_type = TREE_TYPE (vectype);
> + unsigned HOST_WIDE_INT elt_size
> + = tree_to_uhwi (TYPE_SIZE (elt_type));
> + /* We support offset vectors with more elements
> + than the data vector for now. */
> + unsigned HOST_WIDE_INT factor
> + = const_offset_nunits / const_nunits;
> + vec_offset = vec_offsets[j / factor];
> + unsigned elt_offset = (j % factor) * const_nunits;
> + tree idx_type = TREE_TYPE (TREE_TYPE (vec_offset));
> + tree scale = size_int (gs_info.scale);
> + align = get_object_alignment (DR_REF (first_dr_info->dr));
> + tree ltype = build_aligned_type (TREE_TYPE (vectype), align);
> + for (unsigned k = 0; k < const_nunits; ++k)
> + {
> + /* Compute the offsetted pointer. */
> + tree boff = size_binop (MULT_EXPR, TYPE_SIZE (idx_type),
> + bitsize_int (k + elt_offset));
> + tree idx
> + = gimple_build (&stmts, BIT_FIELD_REF, idx_type, vec_offset,
> + TYPE_SIZE (idx_type), boff);
> + idx = gimple_convert (&stmts, sizetype, idx);
> + idx = gimple_build (&stmts, MULT_EXPR, sizetype, idx, scale);
> + tree ptr
> + = gimple_build (&stmts, PLUS_EXPR, TREE_TYPE (dataref_ptr),
> + dataref_ptr, idx);
> + ptr = gimple_convert (&stmts, ptr_type_node, ptr);
> + /* Extract the element to be stored. */
> + tree elt
> + = gimple_build (&stmts, BIT_FIELD_REF, TREE_TYPE (vectype),
> + vec_oprnd, TYPE_SIZE (elt_type),
> + bitsize_int (k * elt_size));
> + gsi_insert_seq_before (gsi, stmts, GSI_SAME_STMT);
> + stmts = NULL;
> + tree ref
> + = build2 (MEM_REF, ltype, ptr, build_int_cst (ref_type, 0));
> + new_stmt = gimple_build_assign (ref, elt);
> + vect_finish_stmt_generation (vinfo, stmt_info, new_stmt, gsi);
> }
> + break;
> + }
>
> - /* Arguments are ready. Create the new vector stmt. */
> - if (final_len)
> - {
> - gcall *call;
> - tree ptr = build_int_cst (ref_type, align * BITS_PER_UNIT);
> - /* Need conversion if it's wrapped with VnQI. */
> - if (vmode != new_vmode)
> - {
> - tree new_vtype
> - = build_vector_type_for_mode (unsigned_intQI_type_node,
> - new_vmode);
> - tree var
> - = vect_get_new_ssa_name (new_vtype, vect_simple_var);
> - vec_oprnd
> - = build1 (VIEW_CONVERT_EXPR, new_vtype, vec_oprnd);
> - gassign *new_stmt
> - = gimple_build_assign (var, VIEW_CONVERT_EXPR,
> - vec_oprnd);
> - vect_finish_stmt_generation (vinfo, stmt_info, new_stmt,
> - gsi);
> - vec_oprnd = var;
> - }
> + if (i > 0)
> + /* Bump the vector pointer. */
> + dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr, gsi,
> + stmt_info, bump);
>
> - if (partial_ifn == IFN_MASK_LEN_STORE)
> - call = gimple_build_call_internal (IFN_MASK_LEN_STORE, 6,
> - dataref_ptr, ptr,
> - final_mask, final_len,
> - bias, vec_oprnd);
> - else
> - call
> - = gimple_build_call_internal (IFN_LEN_STORE, 5,
> - dataref_ptr, ptr,
> - final_len, bias,
> - vec_oprnd);
> - gimple_call_set_nothrow (call, true);
> - vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
> - new_stmt = call;
> + if (slp)
> + vec_oprnd = vec_oprnds[i];
> + else if (grouped_store)
> + /* For grouped stores vectorized defs are interleaved in
> + vect_permute_store_chain(). */
> + vec_oprnd = result_chain[i];
> +
> + align = known_alignment (DR_TARGET_ALIGNMENT (first_dr_info));
> + if (alignment_support_scheme == dr_aligned)
> + misalign = 0;
> + else if (misalignment == DR_MISALIGNMENT_UNKNOWN)
> + {
> + align = dr_alignment (vect_dr_behavior (vinfo, first_dr_info));
> + misalign = 0;
> + }
> + else
> + misalign = misalignment;
> + if (dataref_offset == NULL_TREE
> + && TREE_CODE (dataref_ptr) == SSA_NAME)
> + set_ptr_info_alignment (get_ptr_info (dataref_ptr), align,
> + misalign);
> + align = least_bit_hwi (misalign | align);
> +
> + if (memory_access_type == VMAT_CONTIGUOUS_REVERSE)
> + {
> + tree perm_mask = perm_mask_for_reverse (vectype);
> + tree perm_dest
> + = vect_create_destination_var (vect_get_store_rhs (stmt_info),
> + vectype);
> + tree new_temp = make_ssa_name (perm_dest);
> +
> + /* Generate the permute statement. */
> + gimple *perm_stmt
> + = gimple_build_assign (new_temp, VEC_PERM_EXPR, vec_oprnd,
> + vec_oprnd, perm_mask);
> + vect_finish_stmt_generation (vinfo, stmt_info, perm_stmt, gsi);
> +
> + perm_stmt = SSA_NAME_DEF_STMT (new_temp);
> + vec_oprnd = new_temp;
> + }
> +
> + /* Compute IFN when LOOP_LENS or final_mask valid. */
> + machine_mode vmode = TYPE_MODE (vectype);
> + machine_mode new_vmode = vmode;
> + internal_fn partial_ifn = IFN_LAST;
> + if (loop_lens)
> + {
> + opt_machine_mode new_ovmode
> + = get_len_load_store_mode (vmode, false, &partial_ifn);
> + new_vmode = new_ovmode.require ();
> + unsigned factor
> + = (new_ovmode == vmode) ? 1 : GET_MODE_UNIT_SIZE (vmode);
> + final_len = vect_get_loop_len (loop_vinfo, gsi, loop_lens,
> + vec_num * ncopies, vectype,
> + vec_num * j + i, factor);
> + }
> + else if (final_mask)
> + {
> + if (!can_vec_mask_load_store_p (
> + vmode, TYPE_MODE (TREE_TYPE (final_mask)), false,
> + &partial_ifn))
> + gcc_unreachable ();
> + }
> +
> + if (partial_ifn == IFN_MASK_LEN_STORE)
> + {
> + if (!final_len)
> + {
> + /* Pass VF value to 'len' argument of
> + MASK_LEN_STORE if LOOP_LENS is invalid. */
> + final_len = size_int (TYPE_VECTOR_SUBPARTS (vectype));
> }
> - else if (final_mask)
> + if (!final_mask)
> {
> - tree ptr = build_int_cst (ref_type, align * BITS_PER_UNIT);
> - gcall *call
> - = gimple_build_call_internal (IFN_MASK_STORE, 4,
> - dataref_ptr, ptr,
> - final_mask, vec_oprnd);
> - gimple_call_set_nothrow (call, true);
> - vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
> - new_stmt = call;
> + /* Pass all ones value to 'mask' argument of
> + MASK_LEN_STORE if final_mask is invalid. */
> + mask_vectype = truth_type_for (vectype);
> + final_mask = build_minus_one_cst (mask_vectype);
> }
> - else
> + }
> + if (final_len)
> + {
> + signed char biasval
> + = LOOP_VINFO_PARTIAL_LOAD_STORE_BIAS (loop_vinfo);
> +
> + bias = build_int_cst (intQI_type_node, biasval);
> + }
> +
> + /* Arguments are ready. Create the new vector stmt. */
> + if (final_len)
> + {
> + gcall *call;
> + tree ptr = build_int_cst (ref_type, align * BITS_PER_UNIT);
> + /* Need conversion if it's wrapped with VnQI. */
> + if (vmode != new_vmode)
> {
> - data_ref = fold_build2 (MEM_REF, vectype,
> - dataref_ptr,
> - dataref_offset
> - ? dataref_offset
> - : build_int_cst (ref_type, 0));
> - if (alignment_support_scheme == dr_aligned)
> - ;
> - else
> - TREE_TYPE (data_ref)
> - = build_aligned_type (TREE_TYPE (data_ref),
> - align * BITS_PER_UNIT);
> - vect_copy_ref_info (data_ref, DR_REF (first_dr_info->dr));
> - new_stmt = gimple_build_assign (data_ref, vec_oprnd);
> + tree new_vtype
> + = build_vector_type_for_mode (unsigned_intQI_type_node,
> + new_vmode);
> + tree var = vect_get_new_ssa_name (new_vtype, vect_simple_var);
> + vec_oprnd = build1 (VIEW_CONVERT_EXPR, new_vtype, vec_oprnd);
> + gassign *new_stmt
> + = gimple_build_assign (var, VIEW_CONVERT_EXPR, vec_oprnd);
> vect_finish_stmt_generation (vinfo, stmt_info, new_stmt, gsi);
> + vec_oprnd = var;
> }
>
> - if (slp)
> - continue;
> -
> - next_stmt_info = DR_GROUP_NEXT_ELEMENT (next_stmt_info);
> - if (!next_stmt_info)
> - break;
> + if (partial_ifn == IFN_MASK_LEN_STORE)
> + call = gimple_build_call_internal (IFN_MASK_LEN_STORE, 6,
> + dataref_ptr, ptr, final_mask,
> + final_len, bias, vec_oprnd);
> + else
> + call = gimple_build_call_internal (IFN_LEN_STORE, 5,
> + dataref_ptr, ptr, final_len,
> + bias, vec_oprnd);
> + gimple_call_set_nothrow (call, true);
> + vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
> + new_stmt = call;
> + }
> + else if (final_mask)
> + {
> + tree ptr = build_int_cst (ref_type, align * BITS_PER_UNIT);
> + gcall *call
> + = gimple_build_call_internal (IFN_MASK_STORE, 4, dataref_ptr,
> + ptr, final_mask, vec_oprnd);
> + gimple_call_set_nothrow (call, true);
> + vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
> + new_stmt = call;
> + }
> + else
> + {
> + data_ref
> + = fold_build2 (MEM_REF, vectype, dataref_ptr,
> + dataref_offset ? dataref_offset
> + : build_int_cst (ref_type, 0));
> + if (alignment_support_scheme == dr_aligned)
> + ;
> + else
> + TREE_TYPE (data_ref)
> + = build_aligned_type (TREE_TYPE (data_ref),
> + align * BITS_PER_UNIT);
> + vect_copy_ref_info (data_ref, DR_REF (first_dr_info->dr));
> + new_stmt = gimple_build_assign (data_ref, vec_oprnd);
> + vect_finish_stmt_generation (vinfo, stmt_info, new_stmt, gsi);
> }
> +
> + if (slp)
> + continue;
> +
> + next_stmt_info = DR_GROUP_NEXT_ELEMENT (next_stmt_info);
> + if (!next_stmt_info)
> + break;
> }
> if (!slp)
> {
> --
> 2.31.1
@@ -8779,42 +8779,29 @@ vectorizable_store (vec_info *vinfo,
*/
auto_vec<tree> dr_chain (group_size);
- auto_vec<tree> result_chain (group_size);
auto_vec<tree> vec_masks;
tree vec_mask = NULL;
- auto_vec<tree> vec_offsets;
auto_delete_vec<auto_vec<tree>> gvec_oprnds (group_size);
for (i = 0; i < group_size; i++)
gvec_oprnds.quick_push (new auto_vec<tree> (ncopies));
- auto_vec<tree, 1> vec_oprnds;
- for (j = 0; j < ncopies; j++)
+
+ if (memory_access_type == VMAT_LOAD_STORE_LANES)
{
- gimple *new_stmt;
- if (j == 0)
+ gcc_assert (!slp && grouped_store);
+ for (j = 0; j < ncopies; j++)
{
- if (slp)
- {
- /* Get vectorized arguments for SLP_NODE. */
- vect_get_vec_defs (vinfo, stmt_info, slp_node, 1,
- op, &vec_oprnds);
- vec_oprnd = vec_oprnds[0];
- }
- else
- {
- /* For interleaved stores we collect vectorized defs for all the
- stores in the group in DR_CHAIN. DR_CHAIN is then used as an
- input to vect_permute_store_chain().
-
- If the store is not grouped, DR_GROUP_SIZE is 1, and DR_CHAIN
- is of size 1. */
+ gimple *new_stmt;
+ if (j == 0)
+ {
+ /* For interleaved stores we collect vectorized defs for all
+ the stores in the group in DR_CHAIN. DR_CHAIN is then used
+ as an input to vect_permute_store_chain(). */
stmt_vec_info next_stmt_info = first_stmt_info;
for (i = 0; i < group_size; i++)
{
/* Since gaps are not supported for interleaved stores,
- DR_GROUP_SIZE is the exact number of stmts in the chain.
- Therefore, NEXT_STMT_INFO can't be NULL_TREE. In case
- that there is no interleaving, DR_GROUP_SIZE is 1,
- and only one iteration of the loop will be executed. */
+ DR_GROUP_SIZE is the exact number of stmts in the
+ chain. Therefore, NEXT_STMT_INFO can't be NULL_TREE. */
op = vect_get_store_rhs (next_stmt_info);
vect_get_vec_defs_for_operand (vinfo, next_stmt_info, ncopies,
op, gvec_oprnds[i]);
@@ -8825,66 +8812,37 @@ vectorizable_store (vec_info *vinfo,
if (mask)
{
vect_get_vec_defs_for_operand (vinfo, stmt_info, ncopies,
- mask, &vec_masks, mask_vectype);
+ mask, &vec_masks,
+ mask_vectype);
vec_mask = vec_masks[0];
}
- }
- /* We should have catched mismatched types earlier. */
- gcc_assert (useless_type_conversion_p (vectype,
- TREE_TYPE (vec_oprnd)));
- bool simd_lane_access_p
- = STMT_VINFO_SIMD_LANE_ACCESS_P (stmt_info) != 0;
- if (simd_lane_access_p
- && !loop_masks
- && TREE_CODE (DR_BASE_ADDRESS (first_dr_info->dr)) == ADDR_EXPR
- && VAR_P (TREE_OPERAND (DR_BASE_ADDRESS (first_dr_info->dr), 0))
- && integer_zerop (get_dr_vinfo_offset (vinfo, first_dr_info))
- && integer_zerop (DR_INIT (first_dr_info->dr))
- && alias_sets_conflict_p (get_alias_set (aggr_type),
- get_alias_set (TREE_TYPE (ref_type))))
- {
- dataref_ptr = unshare_expr (DR_BASE_ADDRESS (first_dr_info->dr));
- dataref_offset = build_int_cst (ref_type, 0);
+ /* We should have catched mismatched types earlier. */
+ gcc_assert (
+ useless_type_conversion_p (vectype, TREE_TYPE (vec_oprnd)));
+ dataref_ptr
+ = vect_create_data_ref_ptr (vinfo, first_stmt_info, aggr_type,
+ NULL, offset, &dummy, gsi,
+ &ptr_incr, false, bump);
}
- else if (STMT_VINFO_GATHER_SCATTER_P (stmt_info))
- vect_get_gather_scatter_ops (loop_vinfo, loop, stmt_info,
- slp_node, &gs_info, &dataref_ptr,
- &vec_offsets);
else
- dataref_ptr
- = vect_create_data_ref_ptr (vinfo, first_stmt_info, aggr_type,
- simd_lane_access_p ? loop : NULL,
- offset, &dummy, gsi, &ptr_incr,
- simd_lane_access_p, bump);
- }
- else
- {
- gcc_assert (!LOOP_VINFO_USING_SELECT_VL_P (loop_vinfo));
- /* DR_CHAIN is then used as an input to vect_permute_store_chain().
- If the store is not grouped, DR_GROUP_SIZE is 1, and DR_CHAIN is
- of size 1. */
- for (i = 0; i < group_size; i++)
{
- vec_oprnd = (*gvec_oprnds[i])[j];
- dr_chain[i] = vec_oprnd;
+ gcc_assert (!LOOP_VINFO_USING_SELECT_VL_P (loop_vinfo));
+ /* DR_CHAIN is then used as an input to
+ vect_permute_store_chain(). */
+ for (i = 0; i < group_size; i++)
+ {
+ vec_oprnd = (*gvec_oprnds[i])[j];
+ dr_chain[i] = vec_oprnd;
+ }
+ if (mask)
+ vec_mask = vec_masks[j];
+ dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr, gsi,
+ stmt_info, bump);
}
- if (mask)
- vec_mask = vec_masks[j];
- if (dataref_offset)
- dataref_offset
- = int_const_binop (PLUS_EXPR, dataref_offset, bump);
- else if (!STMT_VINFO_GATHER_SCATTER_P (stmt_info))
- dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr, gsi,
- stmt_info, bump);
- }
-
- if (memory_access_type == VMAT_LOAD_STORE_LANES)
- {
- tree vec_array;
/* Get an array into which we can store the individual vectors. */
- vec_array = create_vector_array (vectype, vec_num);
+ tree vec_array = create_vector_array (vectype, vec_num);
/* Invalidate the current contents of VEC_ARRAY. This should
become an RTL clobber too, which prevents the vector registers
@@ -8895,8 +8853,8 @@ vectorizable_store (vec_info *vinfo,
for (i = 0; i < vec_num; i++)
{
vec_oprnd = dr_chain[i];
- write_vector_array (vinfo, stmt_info,
- gsi, vec_oprnd, vec_array, i);
+ write_vector_array (vinfo, stmt_info, gsi, vec_oprnd, vec_array,
+ i);
}
tree final_mask = NULL;
@@ -8906,8 +8864,8 @@ vectorizable_store (vec_info *vinfo,
final_mask = vect_get_loop_mask (loop_vinfo, gsi, loop_masks,
ncopies, vectype, j);
if (vec_mask)
- final_mask = prepare_vec_mask (loop_vinfo, mask_vectype,
- final_mask, vec_mask, gsi);
+ final_mask = prepare_vec_mask (loop_vinfo, mask_vectype, final_mask,
+ vec_mask, gsi);
if (lanes_ifn == IFN_MASK_LEN_STORE_LANES)
{
@@ -8955,8 +8913,7 @@ vectorizable_store (vec_info *vinfo,
/* Emit:
MEM_REF[...all elements...] = STORE_LANES (VEC_ARRAY). */
data_ref = create_array_ref (aggr_type, dataref_ptr, ref_type);
- call = gimple_build_call_internal (IFN_STORE_LANES, 1,
- vec_array);
+ call = gimple_build_call_internal (IFN_STORE_LANES, 1, vec_array);
gimple_call_set_lhs (call, data_ref);
}
gimple_call_set_nothrow (call, true);
@@ -8965,301 +8922,386 @@ vectorizable_store (vec_info *vinfo,
/* Record that VEC_ARRAY is now dead. */
vect_clobber_variable (vinfo, stmt_info, gsi, vec_array);
+ if (j == 0)
+ *vec_stmt = new_stmt;
+ STMT_VINFO_VEC_STMTS (stmt_info).safe_push (new_stmt);
}
- else
- {
- new_stmt = NULL;
- if (grouped_store)
- /* Permute. */
- vect_permute_store_chain (vinfo, dr_chain, group_size, stmt_info,
- gsi, &result_chain);
- stmt_vec_info next_stmt_info = first_stmt_info;
- for (i = 0; i < vec_num; i++)
- {
- unsigned misalign;
- unsigned HOST_WIDE_INT align;
+ return true;
+ }
- tree final_mask = NULL_TREE;
- tree final_len = NULL_TREE;
- tree bias = NULL_TREE;
- if (loop_masks)
- final_mask = vect_get_loop_mask (loop_vinfo, gsi, loop_masks,
- vec_num * ncopies,
- vectype, vec_num * j + i);
- if (vec_mask)
- final_mask = prepare_vec_mask (loop_vinfo, mask_vectype,
- final_mask, vec_mask, gsi);
+ auto_vec<tree> result_chain (group_size);
+ auto_vec<tree> vec_offsets;
+ auto_vec<tree, 1> vec_oprnds;
+ for (j = 0; j < ncopies; j++)
+ {
+ gimple *new_stmt;
+ if (j == 0)
+ {
+ if (slp)
+ {
+ /* Get vectorized arguments for SLP_NODE. */
+ vect_get_vec_defs (vinfo, stmt_info, slp_node, 1, op,
+ &vec_oprnds);
+ vec_oprnd = vec_oprnds[0];
+ }
+ else
+ {
+ /* For interleaved stores we collect vectorized defs for all the
+ stores in the group in DR_CHAIN. DR_CHAIN is then used as an
+ input to vect_permute_store_chain().
- if (memory_access_type == VMAT_GATHER_SCATTER
- && gs_info.ifn != IFN_LAST)
+ If the store is not grouped, DR_GROUP_SIZE is 1, and DR_CHAIN
+ is of size 1. */
+ stmt_vec_info next_stmt_info = first_stmt_info;
+ for (i = 0; i < group_size; i++)
{
- if (STMT_VINFO_GATHER_SCATTER_P (stmt_info))
- vec_offset = vec_offsets[vec_num * j + i];
- tree scale = size_int (gs_info.scale);
-
- if (gs_info.ifn == IFN_MASK_LEN_SCATTER_STORE)
- {
- if (loop_lens)
- final_len
- = vect_get_loop_len (loop_vinfo, gsi, loop_lens,
- vec_num * ncopies, vectype,
- vec_num * j + i, 1);
- else
- final_len
- = build_int_cst (sizetype,
- TYPE_VECTOR_SUBPARTS (vectype));
- signed char biasval
- = LOOP_VINFO_PARTIAL_LOAD_STORE_BIAS (loop_vinfo);
- bias = build_int_cst (intQI_type_node, biasval);
- if (!final_mask)
- {
- mask_vectype = truth_type_for (vectype);
- final_mask = build_minus_one_cst (mask_vectype);
- }
- }
-
- gcall *call;
- if (final_len && final_mask)
- call
- = gimple_build_call_internal (IFN_MASK_LEN_SCATTER_STORE,
- 7, dataref_ptr, vec_offset,
- scale, vec_oprnd, final_mask,
- final_len, bias);
- else if (final_mask)
- call = gimple_build_call_internal
- (IFN_MASK_SCATTER_STORE, 5, dataref_ptr, vec_offset,
- scale, vec_oprnd, final_mask);
- else
- call = gimple_build_call_internal
- (IFN_SCATTER_STORE, 4, dataref_ptr, vec_offset,
- scale, vec_oprnd);
- gimple_call_set_nothrow (call, true);
- vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
- new_stmt = call;
- break;
+ /* Since gaps are not supported for interleaved stores,
+ DR_GROUP_SIZE is the exact number of stmts in the chain.
+ Therefore, NEXT_STMT_INFO can't be NULL_TREE. In case
+ that there is no interleaving, DR_GROUP_SIZE is 1,
+ and only one iteration of the loop will be executed. */
+ op = vect_get_store_rhs (next_stmt_info);
+ vect_get_vec_defs_for_operand (vinfo, next_stmt_info, ncopies,
+ op, gvec_oprnds[i]);
+ vec_oprnd = (*gvec_oprnds[i])[0];
+ dr_chain.quick_push (vec_oprnd);
+ next_stmt_info = DR_GROUP_NEXT_ELEMENT (next_stmt_info);
}
- else if (memory_access_type == VMAT_GATHER_SCATTER)
+ if (mask)
{
- /* Emulated scatter. */
- gcc_assert (!final_mask);
- unsigned HOST_WIDE_INT const_nunits = nunits.to_constant ();
- unsigned HOST_WIDE_INT const_offset_nunits
- = TYPE_VECTOR_SUBPARTS (gs_info.offset_vectype)
- .to_constant ();
- vec<constructor_elt, va_gc> *ctor_elts;
- vec_alloc (ctor_elts, const_nunits);
- gimple_seq stmts = NULL;
- tree elt_type = TREE_TYPE (vectype);
- unsigned HOST_WIDE_INT elt_size
- = tree_to_uhwi (TYPE_SIZE (elt_type));
- /* We support offset vectors with more elements
- than the data vector for now. */
- unsigned HOST_WIDE_INT factor
- = const_offset_nunits / const_nunits;
- vec_offset = vec_offsets[j / factor];
- unsigned elt_offset = (j % factor) * const_nunits;
- tree idx_type = TREE_TYPE (TREE_TYPE (vec_offset));
- tree scale = size_int (gs_info.scale);
- align = get_object_alignment (DR_REF (first_dr_info->dr));
- tree ltype = build_aligned_type (TREE_TYPE (vectype), align);
- for (unsigned k = 0; k < const_nunits; ++k)
- {
- /* Compute the offsetted pointer. */
- tree boff = size_binop (MULT_EXPR, TYPE_SIZE (idx_type),
- bitsize_int (k + elt_offset));
- tree idx = gimple_build (&stmts, BIT_FIELD_REF,
- idx_type, vec_offset,
- TYPE_SIZE (idx_type), boff);
- idx = gimple_convert (&stmts, sizetype, idx);
- idx = gimple_build (&stmts, MULT_EXPR,
- sizetype, idx, scale);
- tree ptr = gimple_build (&stmts, PLUS_EXPR,
- TREE_TYPE (dataref_ptr),
- dataref_ptr, idx);
- ptr = gimple_convert (&stmts, ptr_type_node, ptr);
- /* Extract the element to be stored. */
- tree elt = gimple_build (&stmts, BIT_FIELD_REF,
- TREE_TYPE (vectype), vec_oprnd,
- TYPE_SIZE (elt_type),
- bitsize_int (k * elt_size));
- gsi_insert_seq_before (gsi, stmts, GSI_SAME_STMT);
- stmts = NULL;
- tree ref = build2 (MEM_REF, ltype, ptr,
- build_int_cst (ref_type, 0));
- new_stmt = gimple_build_assign (ref, elt);
- vect_finish_stmt_generation (vinfo, stmt_info,
- new_stmt, gsi);
- }
- break;
+ vect_get_vec_defs_for_operand (vinfo, stmt_info, ncopies,
+ mask, &vec_masks,
+ mask_vectype);
+ vec_mask = vec_masks[0];
}
+ }
- if (i > 0)
- /* Bump the vector pointer. */
- dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr,
- gsi, stmt_info, bump);
+ /* We should have catched mismatched types earlier. */
+ gcc_assert (useless_type_conversion_p (vectype,
+ TREE_TYPE (vec_oprnd)));
+ bool simd_lane_access_p
+ = STMT_VINFO_SIMD_LANE_ACCESS_P (stmt_info) != 0;
+ if (simd_lane_access_p
+ && !loop_masks
+ && TREE_CODE (DR_BASE_ADDRESS (first_dr_info->dr)) == ADDR_EXPR
+ && VAR_P (TREE_OPERAND (DR_BASE_ADDRESS (first_dr_info->dr), 0))
+ && integer_zerop (get_dr_vinfo_offset (vinfo, first_dr_info))
+ && integer_zerop (DR_INIT (first_dr_info->dr))
+ && alias_sets_conflict_p (get_alias_set (aggr_type),
+ get_alias_set (TREE_TYPE (ref_type))))
+ {
+ dataref_ptr = unshare_expr (DR_BASE_ADDRESS (first_dr_info->dr));
+ dataref_offset = build_int_cst (ref_type, 0);
+ }
+ else if (STMT_VINFO_GATHER_SCATTER_P (stmt_info))
+ vect_get_gather_scatter_ops (loop_vinfo, loop, stmt_info, slp_node,
+ &gs_info, &dataref_ptr, &vec_offsets);
+ else
+ dataref_ptr
+ = vect_create_data_ref_ptr (vinfo, first_stmt_info, aggr_type,
+ simd_lane_access_p ? loop : NULL,
+ offset, &dummy, gsi, &ptr_incr,
+ simd_lane_access_p, bump);
+ }
+ else
+ {
+ gcc_assert (!LOOP_VINFO_USING_SELECT_VL_P (loop_vinfo));
+ /* DR_CHAIN is then used as an input to vect_permute_store_chain().
+ If the store is not grouped, DR_GROUP_SIZE is 1, and DR_CHAIN is
+ of size 1. */
+ for (i = 0; i < group_size; i++)
+ {
+ vec_oprnd = (*gvec_oprnds[i])[j];
+ dr_chain[i] = vec_oprnd;
+ }
+ if (mask)
+ vec_mask = vec_masks[j];
+ if (dataref_offset)
+ dataref_offset = int_const_binop (PLUS_EXPR, dataref_offset, bump);
+ else if (!STMT_VINFO_GATHER_SCATTER_P (stmt_info))
+ dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr, gsi,
+ stmt_info, bump);
+ }
- if (slp)
- vec_oprnd = vec_oprnds[i];
- else if (grouped_store)
- /* For grouped stores vectorized defs are interleaved in
- vect_permute_store_chain(). */
- vec_oprnd = result_chain[i];
+ new_stmt = NULL;
+ if (grouped_store)
+ /* Permute. */
+ vect_permute_store_chain (vinfo, dr_chain, group_size, stmt_info, gsi,
+ &result_chain);
- align = known_alignment (DR_TARGET_ALIGNMENT (first_dr_info));
- if (alignment_support_scheme == dr_aligned)
- misalign = 0;
- else if (misalignment == DR_MISALIGNMENT_UNKNOWN)
- {
- align = dr_alignment (vect_dr_behavior (vinfo, first_dr_info));
- misalign = 0;
- }
- else
- misalign = misalignment;
- if (dataref_offset == NULL_TREE
- && TREE_CODE (dataref_ptr) == SSA_NAME)
- set_ptr_info_alignment (get_ptr_info (dataref_ptr), align,
- misalign);
- align = least_bit_hwi (misalign | align);
-
- if (memory_access_type == VMAT_CONTIGUOUS_REVERSE)
- {
- tree perm_mask = perm_mask_for_reverse (vectype);
- tree perm_dest = vect_create_destination_var
- (vect_get_store_rhs (stmt_info), vectype);
- tree new_temp = make_ssa_name (perm_dest);
-
- /* Generate the permute statement. */
- gimple *perm_stmt
- = gimple_build_assign (new_temp, VEC_PERM_EXPR, vec_oprnd,
- vec_oprnd, perm_mask);
- vect_finish_stmt_generation (vinfo, stmt_info, perm_stmt, gsi);
-
- perm_stmt = SSA_NAME_DEF_STMT (new_temp);
- vec_oprnd = new_temp;
- }
+ stmt_vec_info next_stmt_info = first_stmt_info;
+ for (i = 0; i < vec_num; i++)
+ {
+ unsigned misalign;
+ unsigned HOST_WIDE_INT align;
- /* Compute IFN when LOOP_LENS or final_mask valid. */
- machine_mode vmode = TYPE_MODE (vectype);
- machine_mode new_vmode = vmode;
- internal_fn partial_ifn = IFN_LAST;
- if (loop_lens)
- {
- opt_machine_mode new_ovmode
- = get_len_load_store_mode (vmode, false, &partial_ifn);
- new_vmode = new_ovmode.require ();
- unsigned factor
- = (new_ovmode == vmode) ? 1 : GET_MODE_UNIT_SIZE (vmode);
- final_len = vect_get_loop_len (loop_vinfo, gsi, loop_lens,
- vec_num * ncopies, vectype,
- vec_num * j + i, factor);
- }
- else if (final_mask)
- {
- if (!can_vec_mask_load_store_p (vmode,
- TYPE_MODE (TREE_TYPE (final_mask)),
- false, &partial_ifn))
- gcc_unreachable ();
- }
+ tree final_mask = NULL_TREE;
+ tree final_len = NULL_TREE;
+ tree bias = NULL_TREE;
+ if (loop_masks)
+ final_mask = vect_get_loop_mask (loop_vinfo, gsi, loop_masks,
+ vec_num * ncopies, vectype,
+ vec_num * j + i);
+ if (vec_mask)
+ final_mask = prepare_vec_mask (loop_vinfo, mask_vectype, final_mask,
+ vec_mask, gsi);
- if (partial_ifn == IFN_MASK_LEN_STORE)
+ if (memory_access_type == VMAT_GATHER_SCATTER
+ && gs_info.ifn != IFN_LAST)
+ {
+ if (STMT_VINFO_GATHER_SCATTER_P (stmt_info))
+ vec_offset = vec_offsets[vec_num * j + i];
+ tree scale = size_int (gs_info.scale);
+
+ if (gs_info.ifn == IFN_MASK_LEN_SCATTER_STORE)
{
- if (!final_len)
- {
- /* Pass VF value to 'len' argument of
- MASK_LEN_STORE if LOOP_LENS is invalid. */
- final_len = size_int (TYPE_VECTOR_SUBPARTS (vectype));
- }
+ if (loop_lens)
+ final_len = vect_get_loop_len (loop_vinfo, gsi, loop_lens,
+ vec_num * ncopies, vectype,
+ vec_num * j + i, 1);
+ else
+ final_len = build_int_cst (sizetype,
+ TYPE_VECTOR_SUBPARTS (vectype));
+ signed char biasval
+ = LOOP_VINFO_PARTIAL_LOAD_STORE_BIAS (loop_vinfo);
+ bias = build_int_cst (intQI_type_node, biasval);
if (!final_mask)
{
- /* Pass all ones value to 'mask' argument of
- MASK_LEN_STORE if final_mask is invalid. */
mask_vectype = truth_type_for (vectype);
final_mask = build_minus_one_cst (mask_vectype);
}
}
- if (final_len)
- {
- signed char biasval
- = LOOP_VINFO_PARTIAL_LOAD_STORE_BIAS (loop_vinfo);
- bias = build_int_cst (intQI_type_node, biasval);
+ gcall *call;
+ if (final_len && final_mask)
+ call = gimple_build_call_internal (IFN_MASK_LEN_SCATTER_STORE,
+ 7, dataref_ptr, vec_offset,
+ scale, vec_oprnd, final_mask,
+ final_len, bias);
+ else if (final_mask)
+ call
+ = gimple_build_call_internal (IFN_MASK_SCATTER_STORE, 5,
+ dataref_ptr, vec_offset, scale,
+ vec_oprnd, final_mask);
+ else
+ call = gimple_build_call_internal (IFN_SCATTER_STORE, 4,
+ dataref_ptr, vec_offset,
+ scale, vec_oprnd);
+ gimple_call_set_nothrow (call, true);
+ vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
+ new_stmt = call;
+ break;
+ }
+ else if (memory_access_type == VMAT_GATHER_SCATTER)
+ {
+ /* Emulated scatter. */
+ gcc_assert (!final_mask);
+ unsigned HOST_WIDE_INT const_nunits = nunits.to_constant ();
+ unsigned HOST_WIDE_INT const_offset_nunits
+ = TYPE_VECTOR_SUBPARTS (gs_info.offset_vectype).to_constant ();
+ vec<constructor_elt, va_gc> *ctor_elts;
+ vec_alloc (ctor_elts, const_nunits);
+ gimple_seq stmts = NULL;
+ tree elt_type = TREE_TYPE (vectype);
+ unsigned HOST_WIDE_INT elt_size
+ = tree_to_uhwi (TYPE_SIZE (elt_type));
+ /* We support offset vectors with more elements
+ than the data vector for now. */
+ unsigned HOST_WIDE_INT factor
+ = const_offset_nunits / const_nunits;
+ vec_offset = vec_offsets[j / factor];
+ unsigned elt_offset = (j % factor) * const_nunits;
+ tree idx_type = TREE_TYPE (TREE_TYPE (vec_offset));
+ tree scale = size_int (gs_info.scale);
+ align = get_object_alignment (DR_REF (first_dr_info->dr));
+ tree ltype = build_aligned_type (TREE_TYPE (vectype), align);
+ for (unsigned k = 0; k < const_nunits; ++k)
+ {
+ /* Compute the offsetted pointer. */
+ tree boff = size_binop (MULT_EXPR, TYPE_SIZE (idx_type),
+ bitsize_int (k + elt_offset));
+ tree idx
+ = gimple_build (&stmts, BIT_FIELD_REF, idx_type, vec_offset,
+ TYPE_SIZE (idx_type), boff);
+ idx = gimple_convert (&stmts, sizetype, idx);
+ idx = gimple_build (&stmts, MULT_EXPR, sizetype, idx, scale);
+ tree ptr
+ = gimple_build (&stmts, PLUS_EXPR, TREE_TYPE (dataref_ptr),
+ dataref_ptr, idx);
+ ptr = gimple_convert (&stmts, ptr_type_node, ptr);
+ /* Extract the element to be stored. */
+ tree elt
+ = gimple_build (&stmts, BIT_FIELD_REF, TREE_TYPE (vectype),
+ vec_oprnd, TYPE_SIZE (elt_type),
+ bitsize_int (k * elt_size));
+ gsi_insert_seq_before (gsi, stmts, GSI_SAME_STMT);
+ stmts = NULL;
+ tree ref
+ = build2 (MEM_REF, ltype, ptr, build_int_cst (ref_type, 0));
+ new_stmt = gimple_build_assign (ref, elt);
+ vect_finish_stmt_generation (vinfo, stmt_info, new_stmt, gsi);
}
+ break;
+ }
- /* Arguments are ready. Create the new vector stmt. */
- if (final_len)
- {
- gcall *call;
- tree ptr = build_int_cst (ref_type, align * BITS_PER_UNIT);
- /* Need conversion if it's wrapped with VnQI. */
- if (vmode != new_vmode)
- {
- tree new_vtype
- = build_vector_type_for_mode (unsigned_intQI_type_node,
- new_vmode);
- tree var
- = vect_get_new_ssa_name (new_vtype, vect_simple_var);
- vec_oprnd
- = build1 (VIEW_CONVERT_EXPR, new_vtype, vec_oprnd);
- gassign *new_stmt
- = gimple_build_assign (var, VIEW_CONVERT_EXPR,
- vec_oprnd);
- vect_finish_stmt_generation (vinfo, stmt_info, new_stmt,
- gsi);
- vec_oprnd = var;
- }
+ if (i > 0)
+ /* Bump the vector pointer. */
+ dataref_ptr = bump_vector_ptr (vinfo, dataref_ptr, ptr_incr, gsi,
+ stmt_info, bump);
- if (partial_ifn == IFN_MASK_LEN_STORE)
- call = gimple_build_call_internal (IFN_MASK_LEN_STORE, 6,
- dataref_ptr, ptr,
- final_mask, final_len,
- bias, vec_oprnd);
- else
- call
- = gimple_build_call_internal (IFN_LEN_STORE, 5,
- dataref_ptr, ptr,
- final_len, bias,
- vec_oprnd);
- gimple_call_set_nothrow (call, true);
- vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
- new_stmt = call;
+ if (slp)
+ vec_oprnd = vec_oprnds[i];
+ else if (grouped_store)
+ /* For grouped stores vectorized defs are interleaved in
+ vect_permute_store_chain(). */
+ vec_oprnd = result_chain[i];
+
+ align = known_alignment (DR_TARGET_ALIGNMENT (first_dr_info));
+ if (alignment_support_scheme == dr_aligned)
+ misalign = 0;
+ else if (misalignment == DR_MISALIGNMENT_UNKNOWN)
+ {
+ align = dr_alignment (vect_dr_behavior (vinfo, first_dr_info));
+ misalign = 0;
+ }
+ else
+ misalign = misalignment;
+ if (dataref_offset == NULL_TREE
+ && TREE_CODE (dataref_ptr) == SSA_NAME)
+ set_ptr_info_alignment (get_ptr_info (dataref_ptr), align,
+ misalign);
+ align = least_bit_hwi (misalign | align);
+
+ if (memory_access_type == VMAT_CONTIGUOUS_REVERSE)
+ {
+ tree perm_mask = perm_mask_for_reverse (vectype);
+ tree perm_dest
+ = vect_create_destination_var (vect_get_store_rhs (stmt_info),
+ vectype);
+ tree new_temp = make_ssa_name (perm_dest);
+
+ /* Generate the permute statement. */
+ gimple *perm_stmt
+ = gimple_build_assign (new_temp, VEC_PERM_EXPR, vec_oprnd,
+ vec_oprnd, perm_mask);
+ vect_finish_stmt_generation (vinfo, stmt_info, perm_stmt, gsi);
+
+ perm_stmt = SSA_NAME_DEF_STMT (new_temp);
+ vec_oprnd = new_temp;
+ }
+
+ /* Compute IFN when LOOP_LENS or final_mask valid. */
+ machine_mode vmode = TYPE_MODE (vectype);
+ machine_mode new_vmode = vmode;
+ internal_fn partial_ifn = IFN_LAST;
+ if (loop_lens)
+ {
+ opt_machine_mode new_ovmode
+ = get_len_load_store_mode (vmode, false, &partial_ifn);
+ new_vmode = new_ovmode.require ();
+ unsigned factor
+ = (new_ovmode == vmode) ? 1 : GET_MODE_UNIT_SIZE (vmode);
+ final_len = vect_get_loop_len (loop_vinfo, gsi, loop_lens,
+ vec_num * ncopies, vectype,
+ vec_num * j + i, factor);
+ }
+ else if (final_mask)
+ {
+ if (!can_vec_mask_load_store_p (
+ vmode, TYPE_MODE (TREE_TYPE (final_mask)), false,
+ &partial_ifn))
+ gcc_unreachable ();
+ }
+
+ if (partial_ifn == IFN_MASK_LEN_STORE)
+ {
+ if (!final_len)
+ {
+ /* Pass VF value to 'len' argument of
+ MASK_LEN_STORE if LOOP_LENS is invalid. */
+ final_len = size_int (TYPE_VECTOR_SUBPARTS (vectype));
}
- else if (final_mask)
+ if (!final_mask)
{
- tree ptr = build_int_cst (ref_type, align * BITS_PER_UNIT);
- gcall *call
- = gimple_build_call_internal (IFN_MASK_STORE, 4,
- dataref_ptr, ptr,
- final_mask, vec_oprnd);
- gimple_call_set_nothrow (call, true);
- vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
- new_stmt = call;
+ /* Pass all ones value to 'mask' argument of
+ MASK_LEN_STORE if final_mask is invalid. */
+ mask_vectype = truth_type_for (vectype);
+ final_mask = build_minus_one_cst (mask_vectype);
}
- else
+ }
+ if (final_len)
+ {
+ signed char biasval
+ = LOOP_VINFO_PARTIAL_LOAD_STORE_BIAS (loop_vinfo);
+
+ bias = build_int_cst (intQI_type_node, biasval);
+ }
+
+ /* Arguments are ready. Create the new vector stmt. */
+ if (final_len)
+ {
+ gcall *call;
+ tree ptr = build_int_cst (ref_type, align * BITS_PER_UNIT);
+ /* Need conversion if it's wrapped with VnQI. */
+ if (vmode != new_vmode)
{
- data_ref = fold_build2 (MEM_REF, vectype,
- dataref_ptr,
- dataref_offset
- ? dataref_offset
- : build_int_cst (ref_type, 0));
- if (alignment_support_scheme == dr_aligned)
- ;
- else
- TREE_TYPE (data_ref)
- = build_aligned_type (TREE_TYPE (data_ref),
- align * BITS_PER_UNIT);
- vect_copy_ref_info (data_ref, DR_REF (first_dr_info->dr));
- new_stmt = gimple_build_assign (data_ref, vec_oprnd);
+ tree new_vtype
+ = build_vector_type_for_mode (unsigned_intQI_type_node,
+ new_vmode);
+ tree var = vect_get_new_ssa_name (new_vtype, vect_simple_var);
+ vec_oprnd = build1 (VIEW_CONVERT_EXPR, new_vtype, vec_oprnd);
+ gassign *new_stmt
+ = gimple_build_assign (var, VIEW_CONVERT_EXPR, vec_oprnd);
vect_finish_stmt_generation (vinfo, stmt_info, new_stmt, gsi);
+ vec_oprnd = var;
}
- if (slp)
- continue;
-
- next_stmt_info = DR_GROUP_NEXT_ELEMENT (next_stmt_info);
- if (!next_stmt_info)
- break;
+ if (partial_ifn == IFN_MASK_LEN_STORE)
+ call = gimple_build_call_internal (IFN_MASK_LEN_STORE, 6,
+ dataref_ptr, ptr, final_mask,
+ final_len, bias, vec_oprnd);
+ else
+ call = gimple_build_call_internal (IFN_LEN_STORE, 5,
+ dataref_ptr, ptr, final_len,
+ bias, vec_oprnd);
+ gimple_call_set_nothrow (call, true);
+ vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
+ new_stmt = call;
+ }
+ else if (final_mask)
+ {
+ tree ptr = build_int_cst (ref_type, align * BITS_PER_UNIT);
+ gcall *call
+ = gimple_build_call_internal (IFN_MASK_STORE, 4, dataref_ptr,
+ ptr, final_mask, vec_oprnd);
+ gimple_call_set_nothrow (call, true);
+ vect_finish_stmt_generation (vinfo, stmt_info, call, gsi);
+ new_stmt = call;
+ }
+ else
+ {
+ data_ref
+ = fold_build2 (MEM_REF, vectype, dataref_ptr,
+ dataref_offset ? dataref_offset
+ : build_int_cst (ref_type, 0));
+ if (alignment_support_scheme == dr_aligned)
+ ;
+ else
+ TREE_TYPE (data_ref)
+ = build_aligned_type (TREE_TYPE (data_ref),
+ align * BITS_PER_UNIT);
+ vect_copy_ref_info (data_ref, DR_REF (first_dr_info->dr));
+ new_stmt = gimple_build_assign (data_ref, vec_oprnd);
+ vect_finish_stmt_generation (vinfo, stmt_info, new_stmt, gsi);
}
+
+ if (slp)
+ continue;
+
+ next_stmt_info = DR_GROUP_NEXT_ELEMENT (next_stmt_info);
+ if (!next_stmt_info)
+ break;
}
if (!slp)
{