; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py ; RUN: llc < %s -mtriple=x86_64-unknown-unknown | FileCheck %s ; InstCombine and DAGCombiner transform an 'add' into an 'or' ; if there are no common bits from the incoming operands. ; LEA instruction selection should be able to see through that ; transform and reduce add/shift/or instruction counts. define i32 @or_shift1_and1(i32 %x, i32 %y) { ; CHECK-LABEL: or_shift1_and1: ; CHECK: # BB#0: ; CHECK-NEXT: # kill: %ESI<def> %ESI<kill> %RSI<def> ; CHECK-NEXT: # kill: %EDI<def> %EDI<kill> %RDI<def> ; CHECK-NEXT: andl $1, %esi ; CHECK-NEXT: leal (%rsi,%rdi,2), %eax ; CHECK-NEXT: retq %shl = shl i32 %x, 1 %and = and i32 %y, 1 %or = or i32 %and, %shl ret i32 %or } define i32 @or_shift1_and1_swapped(i32 %x, i32 %y) { ; CHECK-LABEL: or_shift1_and1_swapped: ; CHECK: # BB#0: ; CHECK-NEXT: # kill: %ESI<def> %ESI<kill> %RSI<def> ; CHECK-NEXT: # kill: %EDI<def> %EDI<kill> %RDI<def> ; CHECK-NEXT: andl $1, %esi ; CHECK-NEXT: leal (%rsi,%rdi,2), %eax ; CHECK-NEXT: retq %shl = shl i32 %x, 1 %and = and i32 %y, 1 %or = or i32 %shl, %and ret i32 %or } define i32 @or_shift2_and1(i32 %x, i32 %y) { ; CHECK-LABEL: or_shift2_and1: ; CHECK: # BB#0: ; CHECK-NEXT: # kill: %ESI<def> %ESI<kill> %RSI<def> ; CHECK-NEXT: # kill: %EDI<def> %EDI<kill> %RDI<def> ; CHECK-NEXT: andl $1, %esi ; CHECK-NEXT: leal (%rsi,%rdi,4), %eax ; CHECK-NEXT: retq %shl = shl i32 %x, 2 %and = and i32 %y, 1 %or = or i32 %shl, %and ret i32 %or } define i32 @or_shift3_and1(i32 %x, i32 %y) { ; CHECK-LABEL: or_shift3_and1: ; CHECK: # BB#0: ; CHECK-NEXT: # kill: %ESI<def> %ESI<kill> %RSI<def> ; CHECK-NEXT: # kill: %EDI<def> %EDI<kill> %RDI<def> ; CHECK-NEXT: andl $1, %esi ; CHECK-NEXT: leal (%rsi,%rdi,8), %eax ; CHECK-NEXT: retq %shl = shl i32 %x, 3 %and = and i32 %y, 1 %or = or i32 %shl, %and ret i32 %or } define i32 @or_shift3_and7(i32 %x, i32 %y) { ; CHECK-LABEL: or_shift3_and7: ; CHECK: # BB#0: ; CHECK-NEXT: # kill: %ESI<def> %ESI<kill> %RSI<def> ; CHECK-NEXT: # kill: %EDI<def> %EDI<kill> %RDI<def> ; CHECK-NEXT: andl $7, %esi ; CHECK-NEXT: leal (%rsi,%rdi,8), %eax ; CHECK-NEXT: retq %shl = shl i32 %x, 3 %and = and i32 %y, 7 %or = or i32 %shl, %and ret i32 %or } ; The shift is too big for an LEA. define i32 @or_shift4_and1(i32 %x, i32 %y) { ; CHECK-LABEL: or_shift4_and1: ; CHECK: # BB#0: ; CHECK-NEXT: # kill: %ESI<def> %ESI<kill> %RSI<def> ; CHECK-NEXT: # kill: %EDI<def> %EDI<kill> %RDI<def> ; CHECK-NEXT: shll $4, %edi ; CHECK-NEXT: andl $1, %esi ; CHECK-NEXT: leal (%rsi,%rdi), %eax ; CHECK-NEXT: retq %shl = shl i32 %x, 4 %and = and i32 %y, 1 %or = or i32 %shl, %and ret i32 %or } ; The mask is too big for the shift, so the 'or' isn't equivalent to an 'add'. define i32 @or_shift3_and8(i32 %x, i32 %y) { ; CHECK-LABEL: or_shift3_and8: ; CHECK: # BB#0: ; CHECK-NEXT: # kill: %EDI<def> %EDI<kill> %RDI<def> ; CHECK-NEXT: leal (,%rdi,8), %eax ; CHECK-NEXT: andl $8, %esi ; CHECK-NEXT: orl %esi, %eax ; CHECK-NEXT: retq %shl = shl i32 %x, 3 %and = and i32 %y, 8 %or = or i32 %shl, %and ret i32 %or } ; 64-bit operands should work too. define i64 @or_shift1_and1_64(i64 %x, i64 %y) { ; CHECK-LABEL: or_shift1_and1_64: ; CHECK: # BB#0: ; CHECK-NEXT: andl $1, %esi ; CHECK-NEXT: leaq (%rsi,%rdi,2), %rax ; CHECK-NEXT: retq %shl = shl i64 %x, 1 %and = and i64 %y, 1 %or = or i64 %and, %shl ret i64 %or }