1target datalayout = "e-m:e-i64:64-n32:64" 2target triple = "powerpc64le-unknown-linux-gnu" 3; This file mainly tests the case that the two input registers of the ISEL instruction are the same register. 4; The foldable ISEL in this test case is introduced at simple register coalescing stage. 5 6; Before that stage we have: 7; %vreg18<def> = ISEL8 %vreg5, %vreg2, %vreg15<undef>; 8 9; At simple register coalescing stage, the register coalescer figures out it could remove the copy 10; from %vreg2 to %vreg5, put the original value %X3 into %vreg5 directly 11; erased: 336r %vreg5<def> = COPY %vreg2 12; updated: 288B %vreg5<def> = COPY %X3; 13 14; After that we have: 15; updated: 416B %vreg18<def> = ISEL8 %vreg5, %vreg5, %vreg15<undef>; 16 17; RUN: llc -verify-machineinstrs -O2 -ppc-asm-full-reg-names -mcpu=pwr7 -ppc-gen-isel=true < %s | FileCheck %s --check-prefix=CHECK-GEN-ISEL-TRUE 18; RUN: llc -verify-machineinstrs -O2 -ppc-asm-full-reg-names -mcpu=pwr7 -ppc-gen-isel=false < %s | FileCheck %s --implicit-check-not isel 19%"struct.pov::ot_block_struct" = type { %"struct.pov::ot_block_struct"*, [3 x double], [3 x double], float, float, float, float, float, float, float, float, float, [3 x float], float, float, [3 x double], i16 } 20%"struct.pov::ot_node_struct" = type { %"struct.pov::ot_id_struct", %"struct.pov::ot_block_struct"*, [8 x %"struct.pov::ot_node_struct"*] } 21%"struct.pov::ot_id_struct" = type { i32, i32, i32, i32 } 22 23define void @_ZN3pov6ot_insEPPNS_14ot_node_structEPNS_15ot_block_structEPNS_12ot_id_structE(%"struct.pov::ot_block_struct"* %new_block) { 24; CHECK-GEN-ISEL-TRUE-LABEL: _ZN3pov6ot_insEPPNS_14ot_node_structEPNS_15ot_block_structEPNS_12ot_id_structE: 25; Note: the following line fold the original isel (isel r4, r3, r3) 26; CHECK-GEN-ISEL-TRUE: mr r4, r3 27; CHECK-GEN-ISEL-TRUE: isel r29, r5, r6, 4*cr5+lt 28; CHECK-GEN-ISEL-TRUE: blr 29; 30; CHECK-LABEL: _ZN3pov6ot_insEPPNS_14ot_node_structEPNS_15ot_block_structEPNS_12ot_id_structE: 31; CHECK: mr r4, r3 32; CHECK: bc 12, 4*cr5+lt, [[CASE1:.LBB[0-9_]+]] 33; CHECK: # %bb. 34; CHECK: ori r29, r6, 0 35; CHECK: b [[MERGE:.LBB[0-9_]+]] 36; CHECK: [[CASE1]]: 37; CHECK: addi r29, r5, 0 38; CHECK: [[MERGE]]: 39; CHECK: blr 40entry: 41 br label %while.cond11 42 43while.cond11: 44 %this_node.0250 = phi %"struct.pov::ot_node_struct"* [ undef, %entry ], [ %1, %cond.false21.i156 ], [ %1, %cond.true18.i153 ] 45 %temp_id.sroa.21.1 = phi i32 [ undef, %entry ], [ %shr2039.i152, %cond.true18.i153 ], [ %div24.i155, %cond.false21.i156 ] 46 %0 = load i32, i32* undef, align 4 47 %cmp17 = icmp eq i32 0, %0 48 br i1 %cmp17, label %lor.rhs, label %while.body21 49 50lor.rhs: 51 %Values = getelementptr inbounds %"struct.pov::ot_node_struct", %"struct.pov::ot_node_struct"* %this_node.0250, i64 0, i32 1 52 store %"struct.pov::ot_block_struct"* %new_block, %"struct.pov::ot_block_struct"** %Values, align 8 53 ret void 54 55while.body21: 56 %call.i84 = tail call i8* @ZN3pov10pov_callocEmmPKciS1_pov() 57 store i8* %call.i84, i8** undef, align 8 58 %1 = bitcast i8* %call.i84 to %"struct.pov::ot_node_struct"* 59 br i1 undef, label %cond.true18.i153, label %cond.false21.i156 60 61cond.true18.i153: 62 %shr2039.i152 = lshr i32 %temp_id.sroa.21.1, 1 63 br label %while.cond11 64 65cond.false21.i156: 66 %add23.i154 = add nsw i32 %temp_id.sroa.21.1, 1 67 %div24.i155 = sdiv i32 %add23.i154, 2 68 br label %while.cond11 69} 70 71declare i8* @ZN3pov10pov_callocEmmPKciS1_pov() 72