llvm-6502/test/CodeGen/X86/twoaddr-lea.ll

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;; X's live range extends beyond the shift, so the register allocator
;; cannot coalesce it with Y. Because of this, a copy needs to be
;; emitted before the shift to save the register value before it is
;; clobbered. However, this copy is not needed if the register
;; allocator turns the shift into an LEA. This also occurs for ADD.
; Check that the shift gets turned into an LEA.
; RUN: llc < %s -mcpu=generic -mtriple=x86_64-apple-darwin | FileCheck %s
@G = external global i32
define i32 @test1(i32 %X) nounwind {
; CHECK: test1:
; CHECK-NOT: mov
; CHECK: leal 1(%rdi)
%Z = add i32 %X, 1
store volatile i32 %Z, i32* @G
ret i32 %X
}
; rdar://8977508
; The second add should not be transformed to leal nor should it be
; commutted (which would require inserting a copy).
define i32 @test2(i32 inreg %a, i32 inreg %b, i32 %c, i32 %d) nounwind {
entry:
; CHECK: test2:
; CHECK: leal
; CHECK-NOT: leal
; CHECK-NOT: mov
; CHECK-NEXT: addl
; CHECK-NEXT: ret
%add = add i32 %b, %a
%add3 = add i32 %add, %c
%add5 = add i32 %add3, %d
ret i32 %add5
}
; rdar://9002648
define i64 @test3(i64 %x) nounwind readnone ssp {
entry:
; CHECK: test3:
; CHECK: leaq (%rdi,%rdi), %rax
; CHECK-NOT: addq
; CHECK-NEXT: ret
%0 = shl i64 %x, 1
ret i64 %0
}