; RUN: llc -mtriple=x86_64-apple-darwin -mcpu=core2 < %s | FileCheck --check-prefix=SSE2-CODEGEN %s ; RUN: opt -mtriple=x86_64-apple-darwin -mcpu=core2 -cost-model -analyze < %s | FileCheck --check-prefix=SSE2 %s %shifttype = type <2 x i16> define %shifttype @shift2i16(%shifttype %a, %shifttype %b) { entry: ; SSE2: shift2i16 ; SSE2: cost of 12 {{.*}} ashr ; SSE2-CODEGEN: shift2i16 ; SSE2-CODEGEN: psrlq %0 = ashr %shifttype %a , %b ret %shifttype %0 } %shifttype4i16 = type <4 x i16> define %shifttype4i16 @shift4i16(%shifttype4i16 %a, %shifttype4i16 %b) { entry: ; SSE2: shift4i16 ; SSE2: cost of 16 {{.*}} ashr ; SSE2-CODEGEN: shift4i16 ; SSE2-CODEGEN: psrad %0 = ashr %shifttype4i16 %a , %b ret %shifttype4i16 %0 } %shifttype8i16 = type <8 x i16> define %shifttype8i16 @shift8i16(%shifttype8i16 %a, %shifttype8i16 %b) { entry: ; SSE2: shift8i16 ; SSE2: cost of 32 {{.*}} ashr ; SSE2-CODEGEN: shift8i16 ; SSE2-CODEGEN: psraw %0 = ashr %shifttype8i16 %a , %b ret %shifttype8i16 %0 } %shifttype16i16 = type <16 x i16> define %shifttype16i16 @shift16i16(%shifttype16i16 %a, %shifttype16i16 %b) { entry: ; SSE2: shift16i16 ; SSE2: cost of 64 {{.*}} ashr ; SSE2-CODEGEN: shift16i16 ; SSE2-CODEGEN: psraw %0 = ashr %shifttype16i16 %a , %b ret %shifttype16i16 %0 } %shifttype32i16 = type <32 x i16> define %shifttype32i16 @shift32i16(%shifttype32i16 %a, %shifttype32i16 %b) { entry: ; SSE2: shift32i16 ; SSE2: cost of 128 {{.*}} ashr ; SSE2-CODEGEN: shift32i16 ; SSE2-CODEGEN: psraw %0 = ashr %shifttype32i16 %a , %b ret %shifttype32i16 %0 } %shifttype2i32 = type <2 x i32> define %shifttype2i32 @shift2i32(%shifttype2i32 %a, %shifttype2i32 %b) { entry: ; SSE2: shift2i32 ; SSE2: cost of 12 {{.*}} ashr ; SSE2-CODEGEN: shift2i32 ; SSE2-CODEGEN: psrlq %0 = ashr %shifttype2i32 %a , %b ret %shifttype2i32 %0 } %shifttype4i32 = type <4 x i32> define %shifttype4i32 @shift4i32(%shifttype4i32 %a, %shifttype4i32 %b) { entry: ; SSE2: shift4i32 ; SSE2: cost of 16 {{.*}} ashr ; SSE2-CODEGEN: shift4i32 ; SSE2-CODEGEN: psrad %0 = ashr %shifttype4i32 %a , %b ret %shifttype4i32 %0 } %shifttype8i32 = type <8 x i32> define %shifttype8i32 @shift8i32(%shifttype8i32 %a, %shifttype8i32 %b) { entry: ; SSE2: shift8i32 ; SSE2: cost of 32 {{.*}} ashr ; SSE2-CODEGEN: shift8i32 ; SSE2-CODEGEN: psrad %0 = ashr %shifttype8i32 %a , %b ret %shifttype8i32 %0 } %shifttype16i32 = type <16 x i32> define %shifttype16i32 @shift16i32(%shifttype16i32 %a, %shifttype16i32 %b) { entry: ; SSE2: shift16i32 ; SSE2: cost of 64 {{.*}} ashr ; SSE2-CODEGEN: shift16i32 ; SSE2-CODEGEN: psrad %0 = ashr %shifttype16i32 %a , %b ret %shifttype16i32 %0 } %shifttype32i32 = type <32 x i32> define %shifttype32i32 @shift32i32(%shifttype32i32 %a, %shifttype32i32 %b) { entry: ; SSE2: shift32i32 ; SSE2: cost of 128 {{.*}} ashr ; SSE2-CODEGEN: shift32i32 ; SSE2-CODEGEN: psrad %0 = ashr %shifttype32i32 %a , %b ret %shifttype32i32 %0 } %shifttype2i64 = type <2 x i64> define %shifttype2i64 @shift2i64(%shifttype2i64 %a, %shifttype2i64 %b) { entry: ; SSE2: shift2i64 ; SSE2: cost of 12 {{.*}} ashr ; SSE2-CODEGEN: shift2i64 ; SSE2-CODEGEN: psrlq %0 = ashr %shifttype2i64 %a , %b ret %shifttype2i64 %0 } %shifttype4i64 = type <4 x i64> define %shifttype4i64 @shift4i64(%shifttype4i64 %a, %shifttype4i64 %b) { entry: ; SSE2: shift4i64 ; SSE2: cost of 24 {{.*}} ashr ; SSE2-CODEGEN: shift4i64 ; SSE2-CODEGEN: psrlq %0 = ashr %shifttype4i64 %a , %b ret %shifttype4i64 %0 } %shifttype8i64 = type <8 x i64> define %shifttype8i64 @shift8i64(%shifttype8i64 %a, %shifttype8i64 %b) { entry: ; SSE2: shift8i64 ; SSE2: cost of 48 {{.*}} ashr ; SSE2-CODEGEN: shift8i64 ; SSE2-CODEGEN: psrlq %0 = ashr %shifttype8i64 %a , %b ret %shifttype8i64 %0 } %shifttype16i64 = type <16 x i64> define %shifttype16i64 @shift16i64(%shifttype16i64 %a, %shifttype16i64 %b) { entry: ; SSE2: shift16i64 ; SSE2: cost of 96 {{.*}} ashr ; SSE2-CODEGEN: shift16i64 ; SSE2-CODEGEN: psrlq %0 = ashr %shifttype16i64 %a , %b ret %shifttype16i64 %0 } %shifttype32i64 = type <32 x i64> define %shifttype32i64 @shift32i64(%shifttype32i64 %a, %shifttype32i64 %b) { entry: ; SSE2: shift32i64 ; SSE2: cost of 192 {{.*}} ashr ; SSE2-CODEGEN: shift32i64 ; SSE2-CODEGEN: psrlq %0 = ashr %shifttype32i64 %a , %b ret %shifttype32i64 %0 } %shifttype2i8 = type <2 x i8> define %shifttype2i8 @shift2i8(%shifttype2i8 %a, %shifttype2i8 %b) { entry: ; SSE2: shift2i8 ; SSE2: cost of 12 {{.*}} ashr ; SSE2-CODEGEN: shift2i8 ; SSE2-CODEGEN: psrlq %0 = ashr %shifttype2i8 %a , %b ret %shifttype2i8 %0 } %shifttype4i8 = type <4 x i8> define %shifttype4i8 @shift4i8(%shifttype4i8 %a, %shifttype4i8 %b) { entry: ; SSE2: shift4i8 ; SSE2: cost of 16 {{.*}} ashr ; SSE2-CODEGEN: shift4i8 ; SSE2-CODEGEN: psrad %0 = ashr %shifttype4i8 %a , %b ret %shifttype4i8 %0 } %shifttype8i8 = type <8 x i8> define %shifttype8i8 @shift8i8(%shifttype8i8 %a, %shifttype8i8 %b) { entry: ; SSE2: shift8i8 ; SSE2: cost of 32 {{.*}} ashr ; SSE2-CODEGEN: shift8i8 ; SSE2-CODEGEN: psraw %0 = ashr %shifttype8i8 %a , %b ret %shifttype8i8 %0 } %shifttype16i8 = type <16 x i8> define %shifttype16i8 @shift16i8(%shifttype16i8 %a, %shifttype16i8 %b) { entry: ; SSE2: shift16i8 ; SSE2: cost of 54 {{.*}} ashr ; SSE2-CODEGEN: shift16i8 ; SSE2-CODEGEN: psraw %0 = ashr %shifttype16i8 %a , %b ret %shifttype16i8 %0 } %shifttype32i8 = type <32 x i8> define %shifttype32i8 @shift32i8(%shifttype32i8 %a, %shifttype32i8 %b) { entry: ; SSE2: shift32i8 ; SSE2: cost of 108 {{.*}} ashr ; SSE2-CODEGEN: shift32i8 ; SSE2-CODEGEN: psraw %0 = ashr %shifttype32i8 %a , %b ret %shifttype32i8 %0 } ; Test shift by a constant a value. %shifttypec = type <2 x i16> define %shifttypec @shift2i16const(%shifttypec %a, %shifttypec %b) { entry: ; SSE2: shift2i16const ; SSE2: cost of 4 {{.*}} ashr ; SSE2-CODEGEN: shift2i16const ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec %a , <i16 3, i16 3> ret %shifttypec %0 } %shifttypec4i16 = type <4 x i16> define %shifttypec4i16 @shift4i16const(%shifttypec4i16 %a, %shifttypec4i16 %b) { entry: ; SSE2: shift4i16const ; SSE2: cost of 1 {{.*}} ashr ; SSE2-CODEGEN: shift4i16const ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec4i16 %a , <i16 3, i16 3, i16 3, i16 3> ret %shifttypec4i16 %0 } %shifttypec8i16 = type <8 x i16> define %shifttypec8i16 @shift8i16const(%shifttypec8i16 %a, %shifttypec8i16 %b) { entry: ; SSE2: shift8i16const ; SSE2: cost of 1 {{.*}} ashr ; SSE2-CODEGEN: shift8i16const ; SSE2-CODEGEN: psraw $3 %0 = ashr %shifttypec8i16 %a , <i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3> ret %shifttypec8i16 %0 } %shifttypec16i16 = type <16 x i16> define %shifttypec16i16 @shift16i16const(%shifttypec16i16 %a, %shifttypec16i16 %b) { entry: ; SSE2: shift16i16const ; SSE2: cost of 2 {{.*}} ashr ; SSE2-CODEGEN: shift16i16const ; SSE2-CODEGEN: psraw $3 %0 = ashr %shifttypec16i16 %a , <i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3> ret %shifttypec16i16 %0 } %shifttypec32i16 = type <32 x i16> define %shifttypec32i16 @shift32i16const(%shifttypec32i16 %a, %shifttypec32i16 %b) { entry: ; SSE2: shift32i16const ; SSE2: cost of 4 {{.*}} ashr ; SSE2-CODEGEN: shift32i16const ; SSE2-CODEGEN: psraw $3 %0 = ashr %shifttypec32i16 %a , <i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3, i16 3> ret %shifttypec32i16 %0 } %shifttypec2i32 = type <2 x i32> define %shifttypec2i32 @shift2i32c(%shifttypec2i32 %a, %shifttypec2i32 %b) { entry: ; SSE2: shift2i32c ; SSE2: cost of 4 {{.*}} ashr ; SSE2-CODEGEN: shift2i32c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec2i32 %a , <i32 3, i32 3> ret %shifttypec2i32 %0 } %shifttypec4i32 = type <4 x i32> define %shifttypec4i32 @shift4i32c(%shifttypec4i32 %a, %shifttypec4i32 %b) { entry: ; SSE2: shift4i32c ; SSE2: cost of 1 {{.*}} ashr ; SSE2-CODEGEN: shift4i32c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec4i32 %a , <i32 3, i32 3, i32 3, i32 3> ret %shifttypec4i32 %0 } %shifttypec8i32 = type <8 x i32> define %shifttypec8i32 @shift8i32c(%shifttypec8i32 %a, %shifttypec8i32 %b) { entry: ; SSE2: shift8i32c ; SSE2: cost of 2 {{.*}} ashr ; SSE2-CODEGEN: shift8i32c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec8i32 %a , <i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3> ret %shifttypec8i32 %0 } %shifttypec16i32 = type <16 x i32> define %shifttypec16i32 @shift16i32c(%shifttypec16i32 %a, %shifttypec16i32 %b) { entry: ; SSE2: shift16i32c ; SSE2: cost of 4 {{.*}} ashr ; SSE2-CODEGEN: shift16i32c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec16i32 %a , <i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3> ret %shifttypec16i32 %0 } %shifttypec32i32 = type <32 x i32> define %shifttypec32i32 @shift32i32c(%shifttypec32i32 %a, %shifttypec32i32 %b) { entry: ; SSE2: shift32i32c ; getTypeConversion fails here and promotes this to a i64. ; SSE2: cost of 8 {{.*}} ashr ; SSE2-CODEGEN: shift32i32c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec32i32 %a , <i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3, i32 3> ret %shifttypec32i32 %0 } %shifttypec2i64 = type <2 x i64> define %shifttypec2i64 @shift2i64c(%shifttypec2i64 %a, %shifttypec2i64 %b) { entry: ; SSE2: shift2i64c ; SSE2: cost of 4 {{.*}} ashr ; SSE2-CODEGEN: shift2i64c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec2i64 %a , <i64 3, i64 3> ret %shifttypec2i64 %0 } %shifttypec4i64 = type <4 x i64> define %shifttypec4i64 @shift4i64c(%shifttypec4i64 %a, %shifttypec4i64 %b) { entry: ; SSE2: shift4i64c ; SSE2: cost of 8 {{.*}} ashr ; SSE2-CODEGEN: shift4i64c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec4i64 %a , <i64 3, i64 3, i64 3, i64 3> ret %shifttypec4i64 %0 } %shifttypec8i64 = type <8 x i64> define %shifttypec8i64 @shift8i64c(%shifttypec8i64 %a, %shifttypec8i64 %b) { entry: ; SSE2: shift8i64c ; SSE2: cost of 16 {{.*}} ashr ; SSE2-CODEGEN: shift8i64c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec8i64 %a , <i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3> ret %shifttypec8i64 %0 } %shifttypec16i64 = type <16 x i64> define %shifttypec16i64 @shift16i64c(%shifttypec16i64 %a, %shifttypec16i64 %b) { entry: ; SSE2: shift16i64c ; SSE2: cost of 32 {{.*}} ashr ; SSE2-CODEGEN: shift16i64c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec16i64 %a , <i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3> ret %shifttypec16i64 %0 } %shifttypec32i64 = type <32 x i64> define %shifttypec32i64 @shift32i64c(%shifttypec32i64 %a, %shifttypec32i64 %b) { entry: ; SSE2: shift32i64c ; SSE2: cost of 64 {{.*}} ashr ; SSE2-CODEGEN: shift32i64c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec32i64 %a ,<i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3, i64 3> ret %shifttypec32i64 %0 } %shifttypec2i8 = type <2 x i8> define %shifttypec2i8 @shift2i8c(%shifttypec2i8 %a, %shifttypec2i8 %b) { entry: ; SSE2: shift2i8c ; SSE2: cost of 4 {{.*}} ashr ; SSE2-CODEGEN: shift2i8c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec2i8 %a , <i8 3, i8 3> ret %shifttypec2i8 %0 } %shifttypec4i8 = type <4 x i8> define %shifttypec4i8 @shift4i8c(%shifttypec4i8 %a, %shifttypec4i8 %b) { entry: ; SSE2: shift4i8c ; SSE2: cost of 1 {{.*}} ashr ; SSE2-CODEGEN: shift4i8c ; SSE2-CODEGEN: psrad $3 %0 = ashr %shifttypec4i8 %a , <i8 3, i8 3, i8 3, i8 3> ret %shifttypec4i8 %0 } %shifttypec8i8 = type <8 x i8> define %shifttypec8i8 @shift8i8c(%shifttypec8i8 %a, %shifttypec8i8 %b) { entry: ; SSE2: shift8i8c ; SSE2: cost of 1 {{.*}} ashr ; SSE2-CODEGEN: shift8i8c ; SSE2-CODEGEN: psraw $3 %0 = ashr %shifttypec8i8 %a , <i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3> ret %shifttypec8i8 %0 } %shifttypec16i8 = type <16 x i8> define %shifttypec16i8 @shift16i8c(%shifttypec16i8 %a, %shifttypec16i8 %b) { entry: ; SSE2: shift16i8c ; SSE2: cost of 4 {{.*}} ashr ; SSE2-CODEGEN: shift16i8c ; SSE2-CODEGEN: psrlw $3 %0 = ashr %shifttypec16i8 %a , <i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3> ret %shifttypec16i8 %0 } %shifttypec32i8 = type <32 x i8> define %shifttypec32i8 @shift32i8c(%shifttypec32i8 %a, %shifttypec32i8 %b) { entry: ; SSE2: shift32i8c ; SSE2: cost of 8 {{.*}} ashr ; SSE2-CODEGEN: shift32i8c ; SSE2-CODEGEN: psrlw $3 %0 = ashr %shifttypec32i8 %a , <i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3, i8 3> ret %shifttypec32i8 %0 }