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llvm-project/llvm/test/CodeGen/AMDGPU/nested-loop-conditions.ll
Matt Arsenault 8cc6c2e80f
AMDGPU: Migrate more tests away from undef (#131314) 
andorbitset.ll is interesting since it directly depends on the
difference between poison and undef. Not sure it's useful to keep
the version using poison, I assume none of this code makes it to
codegen.

si-spill-cf.ll was also a nasty case, which I doubt has been reproducing
its original issue for a very long time. I had to reclaim an older version,
replace some of the poison uses, and run simplify-cfg. There's a very
slight change in the final CFG with this, but final the output is approximately
the same as it used to be.
2025-03-17 15:57:47 +07:00

347 lines
16 KiB
LLVM
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; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py UTC_ARGS: --version 5
; RUN: opt -mtriple=amdgcn-- -S -structurizecfg -si-annotate-control-flow %s | FileCheck -check-prefix=IR %s
; RUN: llc -mtriple=amdgcn -mcpu=hawaii -verify-machineinstrs < %s | FileCheck -check-prefix=GCN %s
; After structurizing, there are 3 levels of loops. The i1 phi
; conditions mutually depend on each other, so it isn't safe to delete
; the condition that appears to have no uses until the loop is
; completely processed.
define amdgpu_kernel void @reduced_nested_loop_conditions(ptr addrspace(3) captures(none) %arg) #0 {
; GCN-LABEL: reduced_nested_loop_conditions:
; GCN: ; %bb.0: ; %bb
; GCN-NEXT: s_load_dword s0, s[4:5], 0x9
; GCN-NEXT: v_lshlrev_b32_e32 v0, 3, v0
; GCN-NEXT: s_mov_b32 m0, -1
; GCN-NEXT: s_and_b64 s[2:3], exec, -1
; GCN-NEXT: s_waitcnt lgkmcnt(0)
; GCN-NEXT: v_add_i32_e32 v0, vcc, s0, v0
; GCN-NEXT: ds_read_b64 v[0:1], v0
; GCN-NEXT: s_and_b64 s[0:1], exec, 0
; GCN-NEXT: s_branch .LBB0_2
; GCN-NEXT: .LBB0_1: ; %Flow
; GCN-NEXT: ; in Loop: Header=BB0_2 Depth=1
; GCN-NEXT: s_mov_b64 vcc, s[0:1]
; GCN-NEXT: s_cbranch_vccz .LBB0_4
; GCN-NEXT: .LBB0_2: ; %bb5
; GCN-NEXT: ; =>This Inner Loop Header: Depth=1
; GCN-NEXT: s_mov_b64 s[4:5], -1
; GCN-NEXT: s_mov_b64 vcc, s[2:3]
; GCN-NEXT: s_cbranch_vccz .LBB0_1
; GCN-NEXT: ; %bb.3: ; %bb10
; GCN-NEXT: ; in Loop: Header=BB0_2 Depth=1
; GCN-NEXT: s_mov_b64 s[4:5], 0
; GCN-NEXT: s_branch .LBB0_1
; GCN-NEXT: .LBB0_4: ; %loop.exit.guard
; GCN-NEXT: s_and_b64 vcc, exec, s[4:5]
; GCN-NEXT: s_cbranch_vccz .LBB0_7
; GCN-NEXT: ; %bb.5: ; %bb8
; GCN-NEXT: s_waitcnt lgkmcnt(0)
; GCN-NEXT: ds_read_b32 v0, v0
; GCN-NEXT: s_and_b64 vcc, exec, 0
; GCN-NEXT: .LBB0_6: ; %bb9
; GCN-NEXT: ; =>This Inner Loop Header: Depth=1
; GCN-NEXT: s_mov_b64 vcc, vcc
; GCN-NEXT: s_cbranch_vccz .LBB0_6
; GCN-NEXT: .LBB0_7: ; %DummyReturnBlock
; GCN-NEXT: s_endpgm
; IR-LABEL: define amdgpu_kernel void @reduced_nested_loop_conditions(
; IR-SAME: ptr addrspace(3) captures(none) [[ARG:%.*]]) #[[ATTR0:[0-9]+]] {
; IR-NEXT: [[BB:.*]]:
; IR-NEXT: [[MY_TMP:%.*]] = tail call i32 @llvm.amdgcn.workitem.id.x() #[[ATTR4:[0-9]+]]
; IR-NEXT: [[MY_TMP1:%.*]] = getelementptr inbounds i64, ptr addrspace(3) [[ARG]], i32 [[MY_TMP]]
; IR-NEXT: [[MY_TMP2:%.*]] = load volatile i64, ptr addrspace(3) [[MY_TMP1]], align 8
; IR-NEXT: br label %[[BB5:.*]]
; IR: [[BB3:.*]]:
; IR-NEXT: br i1 true, label %[[BB4:.*]], label %[[BB13:.*]]
; IR: [[BB4]]:
; IR-NEXT: br label %[[FLOW:.*]]
; IR: [[BB5]]:
; IR-NEXT: [[PHI_BROKEN:%.*]] = phi i64 [ [[TMP6:%.*]], %[[BB10:.*]] ], [ 0, %[[BB]] ]
; IR-NEXT: [[MY_TMP6:%.*]] = phi i32 [ 0, %[[BB]] ], [ [[TMP5:%.*]], %[[BB10]] ]
; IR-NEXT: [[MY_TMP7:%.*]] = icmp eq i32 [[MY_TMP6]], 1
; IR-NEXT: [[TMP0:%.*]] = call { i1, i64 } @llvm.amdgcn.if.i64(i1 [[MY_TMP7]])
; IR-NEXT: [[TMP1:%.*]] = extractvalue { i1, i64 } [[TMP0]], 0
; IR-NEXT: [[TMP2:%.*]] = extractvalue { i1, i64 } [[TMP0]], 1
; IR-NEXT: br i1 [[TMP1]], label %[[BB8:.*]], label %[[FLOW]]
; IR: [[BB8]]:
; IR-NEXT: br label %[[BB13]]
; IR: [[BB9:.*]]:
; IR-NEXT: br i1 false, label %[[BB3]], label %[[BB9]]
; IR: [[BB10]]:
; IR-NEXT: [[TMP3:%.*]] = call i1 @llvm.amdgcn.loop.i64(i64 [[TMP6]])
; IR-NEXT: br i1 [[TMP3]], label %[[BB23:.*]], label %[[BB5]]
; IR: [[FLOW]]:
; IR-NEXT: [[TMP4:%.*]] = phi i1 [ [[MY_TMP22:%.*]], %[[BB4]] ], [ true, %[[BB5]] ]
; IR-NEXT: [[TMP5]] = phi i32 [ [[MY_TMP21:%.*]], %[[BB4]] ], [ poison, %[[BB5]] ]
; IR-NEXT: call void @llvm.amdgcn.end.cf.i64(i64 [[TMP2]])
; IR-NEXT: [[TMP6]] = call i64 @llvm.amdgcn.if.break.i64(i1 [[TMP4]], i64 [[PHI_BROKEN]])
; IR-NEXT: br label %[[BB10]]
; IR: [[BB13]]:
; IR-NEXT: [[MY_TMP14:%.*]] = phi i1 [ [[MY_TMP22]], %[[BB3]] ], [ true, %[[BB8]] ]
; IR-NEXT: [[MY_TMP15:%.*]] = bitcast i64 [[MY_TMP2]] to <2 x i32>
; IR-NEXT: br i1 [[MY_TMP14]], label %[[BB16:.*]], label %[[BB20:.*]]
; IR: [[BB16]]:
; IR-NEXT: [[MY_TMP17:%.*]] = extractelement <2 x i32> [[MY_TMP15]], i64 1
; IR-NEXT: [[MY_TMP18:%.*]] = getelementptr inbounds i32, ptr addrspace(3) poison, i32 [[MY_TMP17]]
; IR-NEXT: [[MY_TMP19:%.*]] = load volatile i32, ptr addrspace(3) [[MY_TMP18]], align 4
; IR-NEXT: br label %[[BB20]]
; IR: [[BB20]]:
; IR-NEXT: [[MY_TMP21]] = phi i32 [ [[MY_TMP19]], %[[BB16]] ], [ 0, %[[BB13]] ]
; IR-NEXT: [[MY_TMP22]] = phi i1 [ false, %[[BB16]] ], [ [[MY_TMP14]], %[[BB13]] ]
; IR-NEXT: br label %[[BB9]]
; IR: [[BB23]]:
; IR-NEXT: call void @llvm.amdgcn.end.cf.i64(i64 [[TMP6]])
; IR-NEXT: ret void
;
bb:
%my.tmp = tail call i32 @llvm.amdgcn.workitem.id.x() #1
%my.tmp1 = getelementptr inbounds i64, ptr addrspace(3) %arg, i32 %my.tmp
%my.tmp2 = load volatile i64, ptr addrspace(3) %my.tmp1
br label %bb5
bb3: ; preds = %bb9
br i1 true, label %bb4, label %bb13
bb4: ; preds = %bb3
br label %bb10
bb5: ; preds = %bb10, %bb
%my.tmp6 = phi i32 [ 0, %bb ], [ %my.tmp11, %bb10 ]
%my.tmp7 = icmp eq i32 %my.tmp6, 1
br i1 %my.tmp7, label %bb8, label %bb10
bb8: ; preds = %bb5
br label %bb13
bb9: ; preds = %bb20, %bb9
br i1 false, label %bb3, label %bb9
bb10: ; preds = %bb5, %bb4
%my.tmp11 = phi i32 [ %my.tmp21, %bb4 ], [ poison, %bb5 ]
%my.tmp12 = phi i1 [ %my.tmp22, %bb4 ], [ true, %bb5 ]
br i1 %my.tmp12, label %bb23, label %bb5
bb13: ; preds = %bb8, %bb3
%my.tmp14 = phi i1 [ %my.tmp22, %bb3 ], [ true, %bb8 ]
%my.tmp15 = bitcast i64 %my.tmp2 to <2 x i32>
br i1 %my.tmp14, label %bb16, label %bb20
bb16: ; preds = %bb13
%my.tmp17 = extractelement <2 x i32> %my.tmp15, i64 1
%my.tmp18 = getelementptr inbounds i32, ptr addrspace(3) poison, i32 %my.tmp17
%my.tmp19 = load volatile i32, ptr addrspace(3) %my.tmp18
br label %bb20
bb20: ; preds = %bb16, %bb13
%my.tmp21 = phi i32 [ %my.tmp19, %bb16 ], [ 0, %bb13 ]
%my.tmp22 = phi i1 [ false, %bb16 ], [ %my.tmp14, %bb13 ]
br label %bb9
bb23: ; preds = %bb10
ret void
}
; Earlier version of above, before a run of the structurizer.
define amdgpu_kernel void @nested_loop_conditions(ptr addrspace(1) captures(none) %arg) #0 {
; GCN-LABEL: nested_loop_conditions:
; GCN: ; %bb.0: ; %bb
; GCN-NEXT: s_mov_b32 s3, 0xf000
; GCN-NEXT: s_mov_b32 s2, -1
; GCN-NEXT: buffer_load_dword v0, off, s[0:3], 0 glc
; GCN-NEXT: s_waitcnt vmcnt(0)
; GCN-NEXT: v_cmp_lt_i32_e32 vcc, 8, v0
; GCN-NEXT: s_cbranch_vccnz .LBB1_6
; GCN-NEXT: ; %bb.1: ; %bb14.lr.ph
; GCN-NEXT: s_load_dword s4, s[0:1], 0x0
; GCN-NEXT: s_branch .LBB1_3
; GCN-NEXT: .LBB1_2: ; %Flow
; GCN-NEXT: ; in Loop: Header=BB1_3 Depth=1
; GCN-NEXT: s_and_b64 vcc, exec, s[0:1]
; GCN-NEXT: s_waitcnt lgkmcnt(0)
; GCN-NEXT: s_mov_b64 vcc, vcc
; GCN-NEXT: s_cbranch_vccnz .LBB1_6
; GCN-NEXT: .LBB1_3: ; %bb14
; GCN-NEXT: ; =>This Loop Header: Depth=1
; GCN-NEXT: ; Child Loop BB1_4 Depth 2
; GCN-NEXT: s_waitcnt lgkmcnt(0)
; GCN-NEXT: s_cmp_lg_u32 s4, 1
; GCN-NEXT: s_mov_b64 s[0:1], -1
; GCN-NEXT: ; implicit-def: $sgpr4
; GCN-NEXT: s_cbranch_scc1 .LBB1_2
; GCN-NEXT: .LBB1_4: ; %bb18
; GCN-NEXT: ; Parent Loop BB1_3 Depth=1
; GCN-NEXT: ; => This Inner Loop Header: Depth=2
; GCN-NEXT: buffer_load_dword v0, off, s[0:3], 0 glc
; GCN-NEXT: s_waitcnt vmcnt(0)
; GCN-NEXT: v_cmp_lt_i32_e32 vcc, 8, v0
; GCN-NEXT: s_cbranch_vccnz .LBB1_4
; GCN-NEXT: ; %bb.5: ; %bb21
; GCN-NEXT: ; in Loop: Header=BB1_3 Depth=1
; GCN-NEXT: s_load_dword s4, s[0:1], 0x0
; GCN-NEXT: buffer_load_dword v0, off, s[0:3], 0 glc
; GCN-NEXT: s_waitcnt vmcnt(0)
; GCN-NEXT: v_cmp_lt_i32_e64 s[0:1], 8, v0
; GCN-NEXT: s_branch .LBB1_2
; GCN-NEXT: .LBB1_6: ; %bb31
; GCN-NEXT: v_mov_b32_e32 v0, 0
; GCN-NEXT: buffer_store_dword v0, off, s[0:3], 0
; GCN-NEXT: s_waitcnt vmcnt(0)
; GCN-NEXT: s_endpgm
; IR-LABEL: define amdgpu_kernel void @nested_loop_conditions(
; IR-SAME: ptr addrspace(1) captures(none) [[ARG:%.*]]) #[[ATTR0]] {
; IR-NEXT: [[BB:.*]]:
; IR-NEXT: [[MY_TMP1134:%.*]] = load volatile i32, ptr addrspace(1) poison, align 4
; IR-NEXT: [[MY_TMP1235:%.*]] = icmp slt i32 [[MY_TMP1134]], 9
; IR-NEXT: br i1 [[MY_TMP1235]], label %[[BB14_LR_PH:.*]], label %[[FLOW:.*]]
; IR: [[BB14_LR_PH]]:
; IR-NEXT: [[MY_TMP:%.*]] = tail call i32 @llvm.amdgcn.workitem.id.x() #[[ATTR4]]
; IR-NEXT: [[MY_TMP1:%.*]] = zext i32 [[MY_TMP]] to i64
; IR-NEXT: [[MY_TMP2:%.*]] = getelementptr inbounds i64, ptr addrspace(1) [[ARG]], i64 [[MY_TMP1]]
; IR-NEXT: [[MY_TMP3:%.*]] = load i64, ptr addrspace(1) [[MY_TMP2]], align 16
; IR-NEXT: [[MY_TMP932:%.*]] = load <4 x i32>, ptr addrspace(1) poison, align 16
; IR-NEXT: [[MY_TMP1033:%.*]] = extractelement <4 x i32> [[MY_TMP932]], i64 0
; IR-NEXT: br label %[[BB14:.*]]
; IR: [[FLOW3:.*]]:
; IR-NEXT: call void @llvm.amdgcn.end.cf.i64(i64 [[TMP20:%.*]])
; IR-NEXT: [[TMP0:%.*]] = call { i1, i64 } @llvm.amdgcn.if.i64(i1 [[TMP14:%.*]])
; IR-NEXT: [[TMP1:%.*]] = extractvalue { i1, i64 } [[TMP0]], 0
; IR-NEXT: [[TMP2:%.*]] = extractvalue { i1, i64 } [[TMP0]], 1
; IR-NEXT: br i1 [[TMP1]], label %[[BB4_BB13_CRIT_EDGE:.*]], label %[[FLOW4:.*]]
; IR: [[BB4_BB13_CRIT_EDGE]]:
; IR-NEXT: br label %[[FLOW4]]
; IR: [[FLOW4]]:
; IR-NEXT: [[TMP3:%.*]] = phi i1 [ true, %[[BB4_BB13_CRIT_EDGE]] ], [ false, %[[FLOW3]] ]
; IR-NEXT: call void @llvm.amdgcn.end.cf.i64(i64 [[TMP2]])
; IR-NEXT: br label %[[FLOW]]
; IR: [[BB13:.*]]:
; IR-NEXT: br label %[[BB31:.*]]
; IR: [[FLOW]]:
; IR-NEXT: [[TMP4:%.*]] = phi i1 [ [[TMP3]], %[[FLOW4]] ], [ true, %[[BB]] ]
; IR-NEXT: [[TMP5:%.*]] = call { i1, i64 } @llvm.amdgcn.if.i64(i1 [[TMP4]])
; IR-NEXT: [[TMP6:%.*]] = extractvalue { i1, i64 } [[TMP5]], 0
; IR-NEXT: [[TMP7:%.*]] = extractvalue { i1, i64 } [[TMP5]], 1
; IR-NEXT: br i1 [[TMP6]], label %[[BB13]], label %[[BB31]]
; IR: [[BB14]]:
; IR-NEXT: [[PHI_BROKEN:%.*]] = phi i64 [ [[TMP16:%.*]], %[[FLOW1:.*]] ], [ 0, %[[BB14_LR_PH]] ]
; IR-NEXT: [[MY_TMP1037:%.*]] = phi i32 [ [[MY_TMP1033]], %[[BB14_LR_PH]] ], [ [[TMP12:%.*]], %[[FLOW1]] ]
; IR-NEXT: [[MY_TMP936:%.*]] = phi <4 x i32> [ [[MY_TMP932]], %[[BB14_LR_PH]] ], [ [[TMP11:%.*]], %[[FLOW1]] ]
; IR-NEXT: [[MY_TMP15:%.*]] = icmp eq i32 [[MY_TMP1037]], 1
; IR-NEXT: [[TMP8:%.*]] = call { i1, i64 } @llvm.amdgcn.if.i64(i1 [[MY_TMP15]])
; IR-NEXT: [[TMP9:%.*]] = extractvalue { i1, i64 } [[TMP8]], 0
; IR-NEXT: [[TMP10:%.*]] = extractvalue { i1, i64 } [[TMP8]], 1
; IR-NEXT: br i1 [[TMP9]], label %[[BB16:.*]], label %[[FLOW1]]
; IR: [[BB16]]:
; IR-NEXT: [[MY_TMP17:%.*]] = bitcast i64 [[MY_TMP3]] to <2 x i32>
; IR-NEXT: br label %[[BB18:.*]]
; IR: [[FLOW1]]:
; IR-NEXT: [[TMP11]] = phi <4 x i32> [ [[MY_TMP9:%.*]], %[[BB21:.*]] ], [ poison, %[[BB14]] ]
; IR-NEXT: [[TMP12]] = phi i32 [ [[MY_TMP10:%.*]], %[[BB21]] ], [ poison, %[[BB14]] ]
; IR-NEXT: [[TMP13:%.*]] = phi i1 [ [[MY_TMP12:%.*]], %[[BB21]] ], [ true, %[[BB14]] ]
; IR-NEXT: [[TMP14]] = phi i1 [ [[MY_TMP12]], %[[BB21]] ], [ false, %[[BB14]] ]
; IR-NEXT: [[TMP15:%.*]] = phi i1 [ false, %[[BB21]] ], [ true, %[[BB14]] ]
; IR-NEXT: call void @llvm.amdgcn.end.cf.i64(i64 [[TMP10]])
; IR-NEXT: [[TMP16]] = call i64 @llvm.amdgcn.if.break.i64(i1 [[TMP13]], i64 [[PHI_BROKEN]])
; IR-NEXT: [[TMP17:%.*]] = call i1 @llvm.amdgcn.loop.i64(i64 [[TMP16]])
; IR-NEXT: br i1 [[TMP17]], label %[[FLOW2:.*]], label %[[BB14]]
; IR: [[BB18]]:
; IR-NEXT: [[MY_TMP19:%.*]] = load volatile i32, ptr addrspace(1) poison, align 4
; IR-NEXT: [[MY_TMP20:%.*]] = icmp slt i32 [[MY_TMP19]], 9
; IR-NEXT: br i1 [[MY_TMP20]], label %[[BB21]], label %[[BB18]]
; IR: [[BB21]]:
; IR-NEXT: [[MY_TMP22:%.*]] = extractelement <2 x i32> [[MY_TMP17]], i64 1
; IR-NEXT: [[MY_TMP23:%.*]] = lshr i32 [[MY_TMP22]], 16
; IR-NEXT: [[MY_TMP24:%.*]] = select i1 false, i32 0, i32 [[MY_TMP23]]
; IR-NEXT: [[MY_TMP25:%.*]] = uitofp i32 [[MY_TMP24]] to float
; IR-NEXT: [[MY_TMP26:%.*]] = fmul float [[MY_TMP25]], 0x3EF0001000000000
; IR-NEXT: [[MY_TMP27:%.*]] = fsub float [[MY_TMP26]], 0x7FF8000000000000
; IR-NEXT: [[MY_TMP28:%.*]] = fcmp olt float [[MY_TMP27]], 5.000000e-01
; IR-NEXT: [[MY_TMP29:%.*]] = select i1 [[MY_TMP28]], i64 1, i64 2
; IR-NEXT: [[MY_TMP30:%.*]] = extractelement <4 x i32> [[MY_TMP936]], i64 [[MY_TMP29]]
; IR-NEXT: [[MY_TMP7:%.*]] = zext i32 [[MY_TMP30]] to i64
; IR-NEXT: [[MY_TMP8:%.*]] = getelementptr inbounds <4 x i32>, ptr addrspace(1) poison, i64 [[MY_TMP7]]
; IR-NEXT: [[MY_TMP9]] = load <4 x i32>, ptr addrspace(1) [[MY_TMP8]], align 16
; IR-NEXT: [[MY_TMP10]] = extractelement <4 x i32> [[MY_TMP9]], i64 0
; IR-NEXT: [[MY_TMP11:%.*]] = load volatile i32, ptr addrspace(1) poison, align 4
; IR-NEXT: [[MY_TMP12]] = icmp sge i32 [[MY_TMP11]], 9
; IR-NEXT: br label %[[FLOW1]]
; IR: [[FLOW2]]:
; IR-NEXT: call void @llvm.amdgcn.end.cf.i64(i64 [[TMP16]])
; IR-NEXT: [[TMP18:%.*]] = call { i1, i64 } @llvm.amdgcn.if.i64(i1 [[TMP15]])
; IR-NEXT: [[TMP19:%.*]] = extractvalue { i1, i64 } [[TMP18]], 0
; IR-NEXT: [[TMP20]] = extractvalue { i1, i64 } [[TMP18]], 1
; IR-NEXT: br i1 [[TMP19]], label %[[BB31_LOOPEXIT:.*]], label %[[FLOW3]]
; IR: [[BB31_LOOPEXIT]]:
; IR-NEXT: br label %[[FLOW3]]
; IR: [[BB31]]:
; IR-NEXT: call void @llvm.amdgcn.end.cf.i64(i64 [[TMP7]])
; IR-NEXT: store volatile i32 0, ptr addrspace(1) poison, align 4
; IR-NEXT: ret void
;
bb:
%my.tmp1134 = load volatile i32, ptr addrspace(1) poison
%my.tmp1235 = icmp slt i32 %my.tmp1134, 9
br i1 %my.tmp1235, label %bb14.lr.ph, label %bb13
bb14.lr.ph: ; preds = %bb
%my.tmp = tail call i32 @llvm.amdgcn.workitem.id.x() #1
%my.tmp1 = zext i32 %my.tmp to i64
%my.tmp2 = getelementptr inbounds i64, ptr addrspace(1) %arg, i64 %my.tmp1
%my.tmp3 = load i64, ptr addrspace(1) %my.tmp2, align 16
%my.tmp932 = load <4 x i32>, ptr addrspace(1) poison, align 16
%my.tmp1033 = extractelement <4 x i32> %my.tmp932, i64 0
br label %bb14
bb4.bb13_crit_edge: ; preds = %bb21
br label %bb13
bb13: ; preds = %bb4.bb13_crit_edge, %bb
br label %bb31
bb14: ; preds = %bb21, %bb14.lr.ph
%my.tmp1037 = phi i32 [ %my.tmp1033, %bb14.lr.ph ], [ %my.tmp10, %bb21 ]
%my.tmp936 = phi <4 x i32> [ %my.tmp932, %bb14.lr.ph ], [ %my.tmp9, %bb21 ]
%my.tmp15 = icmp eq i32 %my.tmp1037, 1
br i1 %my.tmp15, label %bb16, label %bb31.loopexit
bb16: ; preds = %bb14
%my.tmp17 = bitcast i64 %my.tmp3 to <2 x i32>
br label %bb18
bb18: ; preds = %bb18, %bb16
%my.tmp19 = load volatile i32, ptr addrspace(1) poison
%my.tmp20 = icmp slt i32 %my.tmp19, 9
br i1 %my.tmp20, label %bb21, label %bb18
bb21: ; preds = %bb18
%my.tmp22 = extractelement <2 x i32> %my.tmp17, i64 1
%my.tmp23 = lshr i32 %my.tmp22, 16
%my.tmp24 = select i1 false, i32 0, i32 %my.tmp23
%my.tmp25 = uitofp i32 %my.tmp24 to float
%my.tmp26 = fmul float %my.tmp25, 0x3EF0001000000000
%my.tmp27 = fsub float %my.tmp26, 0x7FF8000000000000
%my.tmp28 = fcmp olt float %my.tmp27, 5.000000e-01
%my.tmp29 = select i1 %my.tmp28, i64 1, i64 2
%my.tmp30 = extractelement <4 x i32> %my.tmp936, i64 %my.tmp29
%my.tmp7 = zext i32 %my.tmp30 to i64
%my.tmp8 = getelementptr inbounds <4 x i32>, ptr addrspace(1) poison, i64 %my.tmp7
%my.tmp9 = load <4 x i32>, ptr addrspace(1) %my.tmp8, align 16
%my.tmp10 = extractelement <4 x i32> %my.tmp9, i64 0
%my.tmp11 = load volatile i32, ptr addrspace(1) poison
%my.tmp12 = icmp slt i32 %my.tmp11, 9
br i1 %my.tmp12, label %bb14, label %bb4.bb13_crit_edge
bb31.loopexit: ; preds = %bb14
br label %bb31
bb31: ; preds = %bb31.loopexit, %bb13
store volatile i32 0, ptr addrspace(1) poison
ret void
}
declare i32 @llvm.amdgcn.workitem.id.x() #1
attributes #0 = { nounwind }
attributes #1 = { nounwind readnone }
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