; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py ; RUN: llc -march=amdgcn -mcpu=tahiti -verify-machineinstrs < %s | FileCheck -enable-var-scope -check-prefix=SI %s ; ; Most SALU instructions ignore control flow, so we need to make sure ; they don't overwrite values from other blocks. ; If the branch decision is made based on a value in an SGPR then all ; threads will execute the same code paths, so we don't need to worry ; about instructions in different blocks overwriting each other. define amdgpu_kernel void @sgpr_if_else_salu_br(i32 addrspace(1)* %out, i32 %a, i32 %b, i32 %c, i32 %d, i32 %e) { ; SI-LABEL: sgpr_if_else_salu_br: ; SI: ; %bb.0: ; %entry ; SI-NEXT: s_load_dwordx4 s[8:11], s[0:1], 0xb ; SI-NEXT: s_load_dwordx2 s[4:5], s[0:1], 0x9 ; SI-NEXT: s_load_dword s0, s[0:1], 0xf ; SI-NEXT: s_waitcnt lgkmcnt(0) ; SI-NEXT: s_cmp_lg_u32 s8, 0 ; SI-NEXT: s_cbranch_scc0 .LBB0_4 ; SI-NEXT: ; %bb.1: ; %else ; SI-NEXT: s_add_i32 s2, s11, s0 ; SI-NEXT: s_cbranch_execnz .LBB0_3 ; SI-NEXT: .LBB0_2: ; %if ; SI-NEXT: s_sub_i32 s2, s9, s10 ; SI-NEXT: .LBB0_3: ; %endif ; SI-NEXT: s_add_i32 s0, s2, s8 ; SI-NEXT: s_mov_b32 s7, 0xf000 ; SI-NEXT: s_mov_b32 s6, -1 ; SI-NEXT: v_mov_b32_e32 v0, s0 ; SI-NEXT: buffer_store_dword v0, off, s[4:7], 0 ; SI-NEXT: s_endpgm ; SI-NEXT: .LBB0_4: ; SI-NEXT: ; implicit-def: $sgpr2 ; SI-NEXT: s_branch .LBB0_2 entry: %0 = icmp eq i32 %a, 0 br i1 %0, label %if, label %else if: %1 = sub i32 %b, %c br label %endif else: %2 = add i32 %d, %e br label %endif endif: %3 = phi i32 [%1, %if], [%2, %else] %4 = add i32 %3, %a store i32 %4, i32 addrspace(1)* %out ret void } define amdgpu_kernel void @sgpr_if_else_salu_br_opt(i32 addrspace(1)* %out, [8 x i32], i32 %a, [8 x i32], i32 %b, [8 x i32], i32 %c, [8 x i32], i32 %d, [8 x i32], i32 %e) { ; SI-LABEL: sgpr_if_else_salu_br_opt: ; SI: ; %bb.0: ; %entry ; SI-NEXT: s_load_dword s6, s[0:1], 0x13 ; SI-NEXT: s_load_dwordx2 s[4:5], s[0:1], 0x9 ; SI-NEXT: s_waitcnt lgkmcnt(0) ; SI-NEXT: s_cmp_lg_u32 s6, 0 ; SI-NEXT: s_cbranch_scc0 .LBB1_4 ; SI-NEXT: ; %bb.1: ; %else ; SI-NEXT: s_load_dword s2, s[0:1], 0x2e ; SI-NEXT: s_load_dword s3, s[0:1], 0x37 ; SI-NEXT: s_waitcnt lgkmcnt(0) ; SI-NEXT: s_add_i32 s7, s2, s3 ; SI-NEXT: s_cbranch_execnz .LBB1_3 ; SI-NEXT: .LBB1_2: ; %if ; SI-NEXT: s_load_dword s2, s[0:1], 0x1c ; SI-NEXT: s_load_dword s0, s[0:1], 0x25 ; SI-NEXT: s_waitcnt lgkmcnt(0) ; SI-NEXT: s_add_i32 s7, s2, s0 ; SI-NEXT: .LBB1_3: ; %endif ; SI-NEXT: s_add_i32 s0, s7, s6 ; SI-NEXT: s_mov_b32 s7, 0xf000 ; SI-NEXT: s_mov_b32 s6, -1 ; SI-NEXT: v_mov_b32_e32 v0, s0 ; SI-NEXT: buffer_store_dword v0, off, s[4:7], 0 ; SI-NEXT: s_endpgm ; SI-NEXT: .LBB1_4: ; SI-NEXT: ; implicit-def: $sgpr7 ; SI-NEXT: s_branch .LBB1_2 entry: %cmp0 = icmp eq i32 %a, 0 br i1 %cmp0, label %if, label %else if: %add0 = add i32 %b, %c br label %endif else: %add1 = add i32 %d, %e br label %endif endif: %phi = phi i32 [%add0, %if], [%add1, %else] %add2 = add i32 %phi, %a store i32 %add2, i32 addrspace(1)* %out ret void } ; The two S_ADD instructions should write to different registers, since ; different threads will take different control flow paths. define amdgpu_kernel void @sgpr_if_else_valu_br(i32 addrspace(1)* %out, float %a, i32 %b, i32 %c, i32 %d, i32 %e) { ; SI-LABEL: sgpr_if_else_valu_br: ; SI: ; %bb.0: ; %entry ; SI-NEXT: s_load_dwordx2 s[4:5], s[0:1], 0x9 ; SI-NEXT: s_load_dwordx4 s[0:3], s[0:1], 0xc ; SI-NEXT: v_cvt_f32_u32_e32 v0, v0 ; SI-NEXT: ; implicit-def: $sgpr8 ; SI-NEXT: v_cmp_lg_f32_e32 vcc, 0, v0 ; SI-NEXT: s_and_saveexec_b64 s[6:7], vcc ; SI-NEXT: s_xor_b64 s[6:7], exec, s[6:7] ; SI-NEXT: s_cbranch_execz .LBB2_2 ; SI-NEXT: ; %bb.1: ; %else ; SI-NEXT: s_waitcnt lgkmcnt(0) ; SI-NEXT: s_add_i32 s8, s2, s3 ; SI-NEXT: .LBB2_2: ; %Flow ; SI-NEXT: s_waitcnt lgkmcnt(0) ; SI-NEXT: s_or_saveexec_b64 s[2:3], s[6:7] ; SI-NEXT: v_mov_b32_e32 v0, s8 ; SI-NEXT: s_xor_b64 exec, exec, s[2:3] ; SI-NEXT: ; %bb.3: ; %if ; SI-NEXT: s_add_i32 s0, s0, s1 ; SI-NEXT: v_mov_b32_e32 v0, s0 ; SI-NEXT: ; %bb.4: ; %endif ; SI-NEXT: s_or_b64 exec, exec, s[2:3] ; SI-NEXT: s_mov_b32 s7, 0xf000 ; SI-NEXT: s_mov_b32 s6, -1 ; SI-NEXT: buffer_store_dword v0, off, s[4:7], 0 ; SI-NEXT: s_endpgm entry: %tid = call i32 @llvm.amdgcn.workitem.id.x() #0 %tid_f = uitofp i32 %tid to float %tmp1 = fcmp ueq float %tid_f, 0.0 br i1 %tmp1, label %if, label %else if: %tmp2 = add i32 %b, %c br label %endif else: %tmp3 = add i32 %d, %e br label %endif endif: %tmp4 = phi i32 [%tmp2, %if], [%tmp3, %else] store i32 %tmp4, i32 addrspace(1)* %out ret void } define amdgpu_kernel void @sgpr_if_else_valu_cmp_phi_br(i32 addrspace(1)* %out, i32 addrspace(1)* %a, i32 addrspace(1)* %b) { ; SI-LABEL: sgpr_if_else_valu_cmp_phi_br: ; SI: ; %bb.0: ; %entry ; SI-NEXT: s_load_dwordx4 s[4:7], s[0:1], 0x9 ; SI-NEXT: s_load_dwordx2 s[0:1], s[0:1], 0xd ; SI-NEXT: s_mov_b32 s2, 0 ; SI-NEXT: v_cmp_ne_u32_e32 vcc, 0, v0 ; SI-NEXT: ; implicit-def: $sgpr8_sgpr9 ; SI-NEXT: s_and_saveexec_b64 s[10:11], vcc ; SI-NEXT: s_xor_b64 s[10:11], exec, s[10:11] ; SI-NEXT: s_cbranch_execz .LBB3_2 ; SI-NEXT: ; %bb.1: ; %else ; SI-NEXT: s_mov_b32 s3, 0xf000 ; SI-NEXT: v_lshlrev_b32_e32 v0, 2, v0 ; SI-NEXT: v_mov_b32_e32 v1, 0 ; SI-NEXT: s_waitcnt lgkmcnt(0) ; SI-NEXT: buffer_load_dword v0, v[0:1], s[0:3], 0 addr64 ; SI-NEXT: s_waitcnt vmcnt(0) ; SI-NEXT: v_cmp_gt_i32_e32 vcc, 0, v0 ; SI-NEXT: s_and_b64 s[8:9], vcc, exec ; SI-NEXT: ; implicit-def: $vgpr0 ; SI-NEXT: .LBB3_2: ; %Flow ; SI-NEXT: s_waitcnt lgkmcnt(0) ; SI-NEXT: s_andn2_saveexec_b64 s[0:1], s[10:11] ; SI-NEXT: s_cbranch_execz .LBB3_4 ; SI-NEXT: ; %bb.3: ; %if ; SI-NEXT: s_mov_b32 s15, 0xf000 ; SI-NEXT: s_mov_b32 s14, 0 ; SI-NEXT: s_mov_b64 s[12:13], s[6:7] ; SI-NEXT: v_lshlrev_b32_e32 v0, 2, v0 ; SI-NEXT: v_mov_b32_e32 v1, 0 ; SI-NEXT: buffer_load_dword v0, v[0:1], s[12:15], 0 addr64 ; SI-NEXT: s_andn2_b64 s[2:3], s[8:9], exec ; SI-NEXT: s_waitcnt vmcnt(0) ; SI-NEXT: v_cmp_eq_u32_e32 vcc, 0, v0 ; SI-NEXT: s_and_b64 s[6:7], vcc, exec ; SI-NEXT: s_or_b64 s[8:9], s[2:3], s[6:7] ; SI-NEXT: .LBB3_4: ; %endif ; SI-NEXT: s_or_b64 exec, exec, s[0:1] ; SI-NEXT: s_mov_b32 s7, 0xf000 ; SI-NEXT: s_mov_b32 s6, -1 ; SI-NEXT: v_cndmask_b32_e64 v0, 0, -1, s[8:9] ; SI-NEXT: buffer_store_dword v0, off, s[4:7], 0 ; SI-NEXT: s_endpgm entry: %tid = call i32 @llvm.amdgcn.workitem.id.x() #0 %tmp1 = icmp eq i32 %tid, 0 br i1 %tmp1, label %if, label %else if: %gep.if = getelementptr i32, i32 addrspace(1)* %a, i32 %tid %a.val = load i32, i32 addrspace(1)* %gep.if %cmp.if = icmp eq i32 %a.val, 0 br label %endif else: %gep.else = getelementptr i32, i32 addrspace(1)* %b, i32 %tid %b.val = load i32, i32 addrspace(1)* %gep.else %cmp.else = icmp slt i32 %b.val, 0 br label %endif endif: %tmp4 = phi i1 [%cmp.if, %if], [%cmp.else, %else] %ext = sext i1 %tmp4 to i32 store i32 %ext, i32 addrspace(1)* %out ret void } declare i32 @llvm.amdgcn.workitem.id.x() #0 attributes #0 = { readnone }