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; RUN: opt < %s -cost-model -analyze -mtriple=armv7-linux-gnueabihf -mcpu=cortex-a9 | FileCheck --check-prefix=COST %s
; To see the assembly output: llc -mcpu=cortex-a9 < %s | FileCheck --check-prefix=ASM %s
; ASM lines below are only for reference, tests on that direction should go to tests/CodeGen/ARM
; ModuleID = 'arm.ll'
target datalayout = "e-p:32:32:32-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:64:128-a0:0:64-n32-S64"
target triple = "armv7--linux-gnueabihf"
%T216 = type <2 x i16>
%T232 = type <2 x i32>
%T264 = type <2 x i64>
%T416 = type <4 x i16>
%T432 = type <4 x i32>
%T464 = type <4 x i64>
define void @direct(%T432* %loadaddr, %T432* %loadaddr2, %T432* %storeaddr) {
; COST: function 'direct':
%v0 = load %T432* %loadaddr
; ASM: vld1.64
%v1 = load %T432* %loadaddr2
; ASM: vld1.64
%r3 = mul %T432 %v0, %v1
; COST: cost of 2 for instruction: {{.*}} mul <4 x i32>
; ASM: vmul.i32
store %T432 %r3, %T432* %storeaddr
; ASM: vst1.64
ret void
}
define void @ups1632(%T416* %loadaddr, %T416* %loadaddr2, %T432* %storeaddr) {
; COST: function 'ups1632':
%v0 = load %T416* %loadaddr
; ASM: vldr
%v1 = load %T416* %loadaddr2
; ASM: vldr
%r1 = sext %T416 %v0 to %T432
%r2 = sext %T416 %v1 to %T432
; COST: cost of 0 for instruction: {{.*}} sext <4 x i16> {{.*}} to <4 x i32>
%r3 = mul %T432 %r1, %r2
; COST: cost of 2 for instruction: {{.*}} mul <4 x i32>
; ASM: vmull.s16
store %T432 %r3, %T432* %storeaddr
; ASM: vst1.64
ret void
}
define void @upu1632(%T416* %loadaddr, %T416* %loadaddr2, %T432* %storeaddr) {
; COST: function 'upu1632':
%v0 = load %T416* %loadaddr
; ASM: vldr
%v1 = load %T416* %loadaddr2
; ASM: vldr
%r1 = zext %T416 %v0 to %T432
%r2 = zext %T416 %v1 to %T432
; COST: cost of 0 for instruction: {{.*}} zext <4 x i16> {{.*}} to <4 x i32>
%r3 = mul %T432 %r1, %r2
; COST: cost of 2 for instruction: {{.*}} mul <4 x i32>
; ASM: vmull.u16
store %T432 %r3, %T432* %storeaddr
; ASM: vst1.64
ret void
}
define void @ups3264(%T232* %loadaddr, %T232* %loadaddr2, %T264* %storeaddr) {
; COST: function 'ups3264':
%v0 = load %T232* %loadaddr
; ASM: vldr
%v1 = load %T232* %loadaddr2
; ASM: vldr
%r3 = mul %T232 %v0, %v1
; ASM: vmul.i32
; COST: cost of 1 for instruction: {{.*}} mul <2 x i32>
%st = sext %T232 %r3 to %T264
; ASM: vmovl.s32
; COST: cost of 1 for instruction: {{.*}} sext <2 x i32> {{.*}} to <2 x i64>
store %T264 %st, %T264* %storeaddr
; ASM: vst1.64
ret void
}
define void @upu3264(%T232* %loadaddr, %T232* %loadaddr2, %T264* %storeaddr) {
; COST: function 'upu3264':
%v0 = load %T232* %loadaddr
; ASM: vldr
%v1 = load %T232* %loadaddr2
; ASM: vldr
%r3 = mul %T232 %v0, %v1
; ASM: vmul.i32
; COST: cost of 1 for instruction: {{.*}} mul <2 x i32>
%st = zext %T232 %r3 to %T264
; ASM: vmovl.u32
; COST: cost of 1 for instruction: {{.*}} zext <2 x i32> {{.*}} to <2 x i64>
store %T264 %st, %T264* %storeaddr
; ASM: vst1.64
ret void
}
define void @dn3216(%T432* %loadaddr, %T432* %loadaddr2, %T416* %storeaddr) {
; COST: function 'dn3216':
%v0 = load %T432* %loadaddr
; ASM: vld1.64
%v1 = load %T432* %loadaddr2
; ASM: vld1.64
%r3 = mul %T432 %v0, %v1
; ASM: vmul.i32
; COST: cost of 2 for instruction: {{.*}} mul <4 x i32>
%st = trunc %T432 %r3 to %T416
; ASM: vmovn.i32
; COST: cost of 1 for instruction: {{.*}} trunc <4 x i32> {{.*}} to <4 x i16>
store %T416 %st, %T416* %storeaddr
; ASM: vstr
ret void
}
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