; RUN: llc < %s -mtriple=x86_64-pc-win32 -O0 -mattr=+avx | FileCheck %s ; Background: ; If fast-isel bails out to normal selection, then the DAG combiner will run, ; even at -O0. In principle this should not happen (those are optimizations, ; and we said -O0) but as a practical matter there are some instruction ; selection patterns that depend on the legalizations and transforms that the ; DAG combiner does. ; ; The 'optnone' attribute implicitly sets -O0 and fast-isel for the function. ; The DAG combiner was disabled for 'optnone' (but not -O0) by r221168, then ; re-enabled in r233153 because of problems with instruction selection patterns ; mentioned above. (Note: because 'optnone' is supposed to match -O0, r221168 ; really should have disabled the combiner for both.) ; ; If instruction selection eventually becomes smart enough to run without DAG ; combiner, then the combiner can be turned off for -O0 (not just 'optnone') ; and this test can go away. (To be replaced by a different test that verifies ; the DAG combiner does *not* run at -O0 or for 'optnone' functions.) ; ; In the meantime, this test wants to make sure the combiner stays enabled for ; 'optnone' functions, just as it is for -O0. ; The test cases @foo[WithOptnone] prove that the same DAG combine happens ; with -O0 and with 'optnone' set. To prove this, we use a varags to cause ; fast-isel to bail out (varags aren't handled in fast isel). Then we have ; a repeated fadd that can be combined into an fmul. We show that this ; happens in both the non-optnone function and the optnone function. define float @foo(float %x, ...) #0 { entry: %add = fadd fast float %x, %x %add1 = fadd fast float %add, %x ret float %add1 } ; CHECK-LABEL: @foo ; CHECK-NOT: add ; CHECK: mul ; CHECK-NEXT: ret define float @fooWithOptnone(float %x, ...) #1 { entry: %add = fadd fast float %x, %x %add1 = fadd fast float %add, %x ret float %add1 } ; CHECK-LABEL: @fooWithOptnone ; CHECK-NOT: add ; CHECK: mul ; CHECK-NEXT: ret ; The test case @bar is derived from an instruction selection failure case ; that was solved by r233153. It depends on -mattr=+avx. ; Really all we're trying to prove is that it doesn't crash any more. @id84 = common global <16 x i32> zeroinitializer, align 64 define void @bar(...) #1 { entry: %id83 = alloca <16 x i8>, align 16 %0 = load <16 x i32>, <16 x i32>* @id84, align 64 %conv = trunc <16 x i32> %0 to <16 x i8> store <16 x i8> %conv, <16 x i8>* %id83, align 16 ret void } attributes #0 = { "unsafe-fp-math"="true" } attributes #1 = { noinline optnone "unsafe-fp-math"="true" }