; Turn this into a max reduction. Make sure we use a splat to initialize the
; vector for the reduction.
-; CHECK: @max_red
+; CHECK-LABEL: @max_red(
; CHECK: %[[VAR:.*]] = insertelement <2 x i32> undef, i32 %max, i32 0
; CHECK: {{.*}} = shufflevector <2 x i32> %[[VAR]], <2 x i32> undef, <2 x i32> zeroinitializer
; CHECK: icmp sgt <2 x i32>
; Turn this into a max reduction. The select has its inputs reversed therefore
; this is a max reduction.
-; CHECK: @max_red_inverse_select
+; CHECK-LABEL: @max_red_inverse_select(
; CHECK: icmp slt <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
}
; Turn this into a min reduction.
-; CHECK: @min_red
+; CHECK-LABEL: @min_red(
; CHECK: icmp slt <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
; Turn this into a min reduction. The select has its inputs reversed therefore
; this is a min reduction.
-; CHECK: @min_red_inverse_select
+; CHECK-LABEL: @min_red_inverse_select(
; CHECK: icmp sgt <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
; Unsigned tests.
; Turn this into a max reduction.
-; CHECK: @umax_red
+; CHECK-LABEL: @umax_red(
; CHECK: icmp ugt <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
; Turn this into a max reduction. The select has its inputs reversed therefore
; this is a max reduction.
-; CHECK: @umax_red_inverse_select
+; CHECK-LABEL: @umax_red_inverse_select(
; CHECK: icmp ult <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
}
; Turn this into a min reduction.
-; CHECK: @umin_red
+; CHECK-LABEL: @umin_red(
; CHECK: icmp ult <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
; Turn this into a min reduction. The select has its inputs reversed therefore
; this is a min reduction.
-; CHECK: @umin_red_inverse_select
+; CHECK-LABEL: @umin_red_inverse_select(
; CHECK: icmp ugt <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
; SGE -> SLT
; Turn this into a min reduction (select inputs are reversed).
-; CHECK: @sge_min_red
+; CHECK-LABEL: @sge_min_red(
; CHECK: icmp sge <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
; SLE -> SGT
; Turn this into a max reduction (select inputs are reversed).
-; CHECK: @sle_min_red
+; CHECK-LABEL: @sle_min_red(
; CHECK: icmp sle <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
; UGE -> ULT
; Turn this into a min reduction (select inputs are reversed).
-; CHECK: @uge_min_red
+; CHECK-LABEL: @uge_min_red(
; CHECK: icmp uge <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
; ULE -> UGT
; Turn this into a max reduction (select inputs are reversed).
-; CHECK: @ule_min_red
+; CHECK-LABEL: @ule_min_red(
; CHECK: icmp ule <2 x i32>
; CHECK: select <2 x i1>
; CHECK: middle.block
}
; No reduction.
-; CHECK: @no_red_1
+; CHECK-LABEL: @no_red_1(
; CHECK-NOT: icmp <2 x i32>
define i32 @no_red_1(i32 %max) {
entry:
ret i32 %max.red.0
}
-; CHECK: @no_red_2
+; CHECK-LABEL: @no_red_2(
; CHECK-NOT: icmp <2 x i32>
define i32 @no_red_2(i32 %max) {
entry:
; Maximum.
; Turn this into a max reduction in the presence of a no-nans-fp-math attribute.
-; CHECK: @max_red_float
+; CHECK-LABEL: @max_red_float(
; CHECK: fcmp ogt <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %max.red.0
}
-; CHECK: @max_red_float_ge
+; CHECK-LABEL: @max_red_float_ge(
; CHECK: fcmp oge <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %max.red.0
}
-; CHECK: @inverted_max_red_float
+; CHECK-LABEL: @inverted_max_red_float(
; CHECK: fcmp olt <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %max.red.0
}
-; CHECK: @inverted_max_red_float_le
+; CHECK-LABEL: @inverted_max_red_float_le(
; CHECK: fcmp ole <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %max.red.0
}
-; CHECK: @unordered_max_red_float_ge
+; CHECK-LABEL: @unordered_max_red_float_ge(
; CHECK: fcmp uge <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %max.red.0
}
-; CHECK: @inverted_unordered_max_red_float_le
+; CHECK-LABEL: @inverted_unordered_max_red_float_le(
; CHECK: fcmp ule <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
; Minimum.
; Turn this into a min reduction in the presence of a no-nans-fp-math attribute.
-; CHECK: @min_red_float
+; CHECK-LABEL: @min_red_float(
; CHECK: fcmp olt <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %min.red.0
}
-; CHECK: @min_red_float_le
+; CHECK-LABEL: @min_red_float_le(
; CHECK: fcmp ole <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %min.red.0
}
-; CHECK: @inverted_min_red_float
+; CHECK-LABEL: @inverted_min_red_float(
; CHECK: fcmp ogt <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %min.red.0
}
-; CHECK: @inverted_min_red_float_ge
+; CHECK-LABEL: @inverted_min_red_float_ge(
; CHECK: fcmp oge <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %min.red.0
}
-; CHECK: @unordered_min_red_float_le
+; CHECK-LABEL: @unordered_min_red_float_le(
; CHECK: fcmp ule <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
ret float %min.red.0
}
-; CHECK: @inverted_unordered_min_red_float_ge
+; CHECK-LABEL: @inverted_unordered_min_red_float_ge(
; CHECK: fcmp uge <2 x float>
; CHECK: select <2 x i1>
; CHECK: middle.block
}
; Make sure we handle doubles, too.
-; CHECK: @min_red_double
+; CHECK-LABEL: @min_red_double(
; CHECK: fcmp olt <2 x double>
; CHECK: select <2 x i1>
; CHECK: middle.block
; Don't this into a max reduction. The no-nans-fp-math attribute is missing
-; CHECK: @max_red_float_nans
+; CHECK-LABEL: @max_red_float_nans(
; CHECK-NOT: <2 x float>
define float @max_red_float_nans(float %max) {
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