@@ -5787,6 +5787,16 @@ Other shift and rotate instructions, analogous to the
Vector shift and rotate instructions that take vectors as operand 2
instead of a scalar type.
+@cindex @code{uabd@var{m}} instruction pattern
+@cindex @code{sabd@var{m}} instruction pattern
+@item @samp{uabd@var{m}}, @samp{sabd@var{m}}
+Signed and unsigned absolute difference instructions. These
+instructions find the difference between operands 1 and 2
+then return the absolute value. A C code equivalent would be:
+@smallexample
+op0 = op1 > op2 ? op1 - op2 : op2 - op1;
+@end smallexample
+
@cindex @code{avg@var{m}3_floor} instruction pattern
@cindex @code{uavg@var{m}3_floor} instruction pattern
@item @samp{avg@var{m}3_floor}
@@ -191,6 +191,9 @@ DEF_INTERNAL_OPTAB_FN (FMS, ECF_CONST, fms, ternary)
DEF_INTERNAL_OPTAB_FN (FNMA, ECF_CONST, fnma, ternary)
DEF_INTERNAL_OPTAB_FN (FNMS, ECF_CONST, fnms, ternary)
+DEF_INTERNAL_SIGNED_OPTAB_FN (ABD, ECF_CONST | ECF_NOTHROW, first,
+ sabd, uabd, binary)
+
DEF_INTERNAL_SIGNED_OPTAB_FN (AVG_FLOOR, ECF_CONST | ECF_NOTHROW, first,
savg_floor, uavg_floor, binary)
DEF_INTERNAL_SIGNED_OPTAB_FN (AVG_CEIL, ECF_CONST | ECF_NOTHROW, first,
@@ -359,6 +359,8 @@ OPTAB_D (mask_fold_left_plus_optab, "mask_fold_left_plus_$a")
OPTAB_D (extract_last_optab, "extract_last_$a")
OPTAB_D (fold_extract_last_optab, "fold_extract_last_$a")
+OPTAB_D (uabd_optab, "uabd$a3")
+OPTAB_D (sabd_optab, "sabd$a3")
OPTAB_D (savg_floor_optab, "avg$a3_floor")
OPTAB_D (uavg_floor_optab, "uavg$a3_floor")
OPTAB_D (savg_ceil_optab, "avg$a3_ceil")
@@ -782,6 +782,100 @@ vect_split_statement (vec_info *vinfo, stmt_vec_info stmt2_info, tree new_rhs,
}
}
+/* Look for the following pattern
+ X = x[i]
+ Y = y[i]
+ DIFF = X - Y
+ DAD = ABS_EXPR<DIFF>
+
+ ABS_STMT should point to a statement of code ABS_EXPR or ABSU_EXPR.
+ HALF_TYPE and UNPROM will be set should the statement be found to
+ be a widened operation.
+ DIFF_STMT will be set to the MINUS_EXPR
+ statement that precedes the ABS_STMT unless vect_widened_op_tree
+ succeeds.
+ */
+static bool
+vect_recog_absolute_difference (vec_info *vinfo, gassign *abs_stmt,
+ tree *half_type,
+ vect_unpromoted_value unprom[2],
+ gassign **diff_stmt)
+{
+ if (!abs_stmt)
+ return false;
+
+ /* FORNOW. Can continue analyzing the def-use chain when this stmt in a phi
+ inside the loop (in case we are analyzing an outer-loop). */
+ enum tree_code code = gimple_assign_rhs_code (abs_stmt);
+ if (code != ABS_EXPR && code != ABSU_EXPR)
+ return false;
+
+ tree abs_oprnd = gimple_assign_rhs1 (abs_stmt);
+ tree abs_type = TREE_TYPE (abs_oprnd);
+ if (!abs_oprnd)
+ return false;
+ if (!ANY_INTEGRAL_TYPE_P (abs_type)
+ || TYPE_OVERFLOW_WRAPS (abs_type)
+ || TYPE_UNSIGNED (abs_type))
+ return false;
+
+ /* Peel off conversions from the ABS input. This can involve sign
+ changes (e.g. from an unsigned subtraction to a signed ABS input)
+ or signed promotion, but it can't include unsigned promotion.
+ (Note that ABS of an unsigned promotion should have been folded
+ away before now anyway.) */
+ vect_unpromoted_value unprom_diff;
+ abs_oprnd = vect_look_through_possible_promotion (vinfo, abs_oprnd,
+ &unprom_diff);
+ if (!abs_oprnd)
+ return false;
+ if (TYPE_PRECISION (unprom_diff.type) != TYPE_PRECISION (abs_type)
+ && TYPE_UNSIGNED (unprom_diff.type))
+ return false;
+
+ /* We then detect if the operand of abs_expr is defined by a minus_expr. */
+ stmt_vec_info diff_stmt_vinfo = vect_get_internal_def (vinfo, abs_oprnd);
+ if (!diff_stmt_vinfo)
+ return false;
+
+ /* FORNOW. Can continue analyzing the def-use chain when this stmt in a phi
+ inside the loop (in case we are analyzing an outer-loop). */
+ if (vect_widened_op_tree (vinfo, diff_stmt_vinfo,
+ MINUS_EXPR, IFN_VEC_WIDEN_MINUS,
+ false, 2, unprom, half_type))
+ return true;
+
+ /* Failed to find a widen operation so we check for a regular MINUS_EXPR. */
+ gassign *diff = dyn_cast <gassign *> (STMT_VINFO_STMT (diff_stmt_vinfo));
+ if (!diff || gimple_assign_rhs_code (diff) != MINUS_EXPR)
+ return false;
+
+ if (diff_stmt)
+ *diff_stmt = diff;
+
+ if (TYPE_OVERFLOW_UNDEFINED (TREE_TYPE (abs_oprnd)))
+ {
+ *half_type = NULL_TREE;
+ return true;
+ }
+
+ vect_unpromoted_value diff0, diff1;
+ if (vect_look_through_possible_promotion (vinfo, gimple_assign_rhs1 (diff),
+ &diff0)
+ && vect_look_through_possible_promotion (vinfo, gimple_assign_rhs2 (diff),
+ &diff1))
+ {
+ if (TYPE_OVERFLOW_UNDEFINED (diff0.type)
+ && TYPE_OVERFLOW_UNDEFINED (diff1.type))
+ {
+ *half_type = NULL_TREE;
+ return true;
+ }
+ }
+
+ return false;
+}
+
/* Convert UNPROM to TYPE and return the result, adding new statements
to STMT_INFO's pattern definition statements if no better way is
available. VECTYPE is the vector form of TYPE.
@@ -1320,41 +1414,31 @@ vect_recog_sad_pattern (vec_info *vinfo,
/* FORNOW. Can continue analyzing the def-use chain when this stmt in a phi
inside the loop (in case we are analyzing an outer-loop). */
gassign *abs_stmt = dyn_cast <gassign *> (abs_stmt_vinfo->stmt);
- if (!abs_stmt
- || (gimple_assign_rhs_code (abs_stmt) != ABS_EXPR
- && gimple_assign_rhs_code (abs_stmt) != ABSU_EXPR))
- return NULL;
+ vect_unpromoted_value unprom[2];
- tree abs_oprnd = gimple_assign_rhs1 (abs_stmt);
- tree abs_type = TREE_TYPE (abs_oprnd);
- if (TYPE_UNSIGNED (abs_type))
- return NULL;
+ if (!abs_stmt)
+ {
+ gcall *abd_stmt = dyn_cast <gcall *> (abs_stmt_vinfo->stmt);
+ if (!abd_stmt
+ || !gimple_call_internal_p (abd_stmt)
+ || gimple_call_internal_fn (abd_stmt) != IFN_ABD)
+ return NULL;
- /* Peel off conversions from the ABS input. This can involve sign
- changes (e.g. from an unsigned subtraction to a signed ABS input)
- or signed promotion, but it can't include unsigned promotion.
- (Note that ABS of an unsigned promotion should have been folded
- away before now anyway.) */
- vect_unpromoted_value unprom_diff;
- abs_oprnd = vect_look_through_possible_promotion (vinfo, abs_oprnd,
- &unprom_diff);
- if (!abs_oprnd)
- return NULL;
- if (TYPE_PRECISION (unprom_diff.type) != TYPE_PRECISION (abs_type)
- && TYPE_UNSIGNED (unprom_diff.type))
- return NULL;
+ tree abd_oprnd0 = gimple_call_arg (abd_stmt, 0);
+ tree abd_oprnd1 = gimple_call_arg (abd_stmt, 1);
- /* We then detect if the operand of abs_expr is defined by a minus_expr. */
- stmt_vec_info diff_stmt_vinfo = vect_get_internal_def (vinfo, abs_oprnd);
- if (!diff_stmt_vinfo)
+ if (!vect_look_through_possible_promotion (vinfo, abd_oprnd0, &unprom[0])
+ || !vect_look_through_possible_promotion (vinfo, abd_oprnd1,
+ &unprom[1]))
+ return NULL;
+
+ half_type = unprom[0].type;
+ }
+ else if (!vect_recog_absolute_difference (vinfo, abs_stmt, &half_type,
+ unprom, NULL))
return NULL;
- /* FORNOW. Can continue analyzing the def-use chain when this stmt in a phi
- inside the loop (in case we are analyzing an outer-loop). */
- vect_unpromoted_value unprom[2];
- if (!vect_widened_op_tree (vinfo, diff_stmt_vinfo, MINUS_EXPR,
- IFN_VEC_WIDEN_MINUS,
- false, 2, unprom, &half_type))
+ if (!half_type)
return NULL;
vect_pattern_detected ("vect_recog_sad_pattern", last_stmt);
@@ -1376,6 +1460,120 @@ vect_recog_sad_pattern (vec_info *vinfo,
return pattern_stmt;
}
+/* Function vect_recog_abd_pattern
+
+ Try to find the following ABsolute Difference (ABD) pattern:
+
+ VTYPE x, y, out;
+ type diff;
+ loop i in range:
+ S1 diff = x[i] - y[i]
+ S2 out[i] = ABS_EXPR <diff>;
+
+ where 'type' is a integer and 'VTYPE' is a vector of integers
+ the same size as 'type'
+
+ Input:
+
+ * STMT_VINFO: The stmt from which the pattern search begins
+
+ Output:
+
+ * TYPE_out: The type of the output of this pattern
+
+ * Return value: A new stmt that will be used to replace the sequence of
+ stmts that constitute the pattern; either SABD or UABD:
+ SABD_EXPR<x, y, out>
+ UABD_EXPR<x, y, out>
+ */
+
+static gimple *
+vect_recog_abd_pattern (vec_info *vinfo,
+ stmt_vec_info stmt_vinfo, tree *type_out)
+{
+ /* Look for the following patterns
+ X = x[i]
+ Y = y[i]
+ DIFF = X - Y
+ DAD = ABS_EXPR<DIFF>
+ out[i] = DAD
+
+ In which
+ - X, Y, DIFF, DAD all have the same type
+ - x, y, out are all vectors of the same type
+ */
+
+ gassign *last_stmt = dyn_cast <gassign *> (STMT_VINFO_STMT (stmt_vinfo));
+ if (!last_stmt)
+ return NULL;
+
+ tree out_type = TREE_TYPE (gimple_assign_lhs (last_stmt));
+
+ vect_unpromoted_value unprom[2];
+ gassign *diff_stmt;
+ tree half_type;
+ if (!vect_recog_absolute_difference (vinfo, last_stmt, &half_type,
+ unprom, &diff_stmt))
+ return NULL;
+
+ tree abd_type = out_type, vectype;
+ tree abd_oprnds[2];
+ bool extend = false;
+ if (half_type)
+ {
+ vectype = get_vectype_for_scalar_type (vinfo, half_type);
+ if (!vectype)
+ return NULL;
+
+ abd_type = half_type;
+ vect_convert_inputs (vinfo, stmt_vinfo, 2, abd_oprnds,
+ half_type, unprom, vectype);
+
+ extend = TYPE_PRECISION (abd_type) < TYPE_PRECISION (out_type);
+ }
+ else
+ {
+ unprom[0].op = gimple_assign_rhs1 (diff_stmt);
+ unprom[1].op = gimple_assign_rhs2 (diff_stmt);
+ tree signed_out = signed_type_for (out_type);
+ vectype = get_vectype_for_scalar_type (vinfo, signed_out);
+ if (!vectype)
+ return NULL;
+
+ vect_convert_inputs (vinfo, stmt_vinfo, 2, abd_oprnds,
+ signed_out, unprom, vectype);
+ }
+
+ vect_pattern_detected ("vect_recog_abd_pattern", last_stmt);
+
+ if (!vectype
+ || !direct_internal_fn_supported_p (IFN_ABD, vectype,
+ OPTIMIZE_FOR_SPEED))
+ return NULL;
+
+ *type_out = get_vectype_for_scalar_type (vinfo, out_type);
+
+ tree abd_result = vect_recog_temp_ssa_var (abd_type, NULL);
+ gcall *abd_stmt = gimple_build_call_internal (IFN_ABD, 2,
+ abd_oprnds[0], abd_oprnds[1]);
+ gimple_call_set_lhs (abd_stmt, abd_result);
+ gimple_set_location (abd_stmt, gimple_location (last_stmt));
+
+ if (!extend)
+ return abd_stmt;
+
+ gimple *stmt = abd_stmt;
+ if (!TYPE_UNSIGNED (abd_type))
+ {
+ tree unsign = unsigned_type_for (abd_type);
+ tree unsign_vectype = get_vectype_for_scalar_type (vinfo, unsign);
+ stmt = vect_convert_output (vinfo, stmt_vinfo, unsign, stmt,
+ unsign_vectype);
+ }
+
+ return vect_convert_output (vinfo, stmt_vinfo, out_type, stmt, vectype);
+}
+
/* Recognize an operation that performs ORIG_CODE on widened inputs,
so that it can be treated as though it had the form:
@@ -6471,6 +6669,7 @@ struct vect_recog_func
static vect_recog_func vect_vect_recog_func_ptrs[] = {
{ vect_recog_bitfield_ref_pattern, "bitfield_ref" },
{ vect_recog_bit_insert_pattern, "bit_insert" },
+ { vect_recog_abd_pattern, "abd" },
{ vect_recog_over_widening_pattern, "over_widening" },
/* Must come after over_widening, which narrows the shift as much as
possible beforehand. */