| ; RUN: llc -aarch64-sve-vector-bits-min=128 < %s | FileCheck %s -D#VBYTES=16 -check-prefix=NO_SVE |
| ; RUN: llc -aarch64-sve-vector-bits-min=256 < %s | FileCheck %s -D#VBYTES=32 -check-prefixes=CHECK,VBITS_LE_1024,VBITS_LE_512,VBITS_LE_256 |
| ; RUN: llc -aarch64-sve-vector-bits-min=384 < %s | FileCheck %s -D#VBYTES=32 -check-prefixes=CHECK,VBITS_LE_1024,VBITS_LE_512,VBITS_LE_256 |
| ; RUN: llc -aarch64-sve-vector-bits-min=512 < %s | FileCheck %s -D#VBYTES=64 -check-prefixes=CHECK,VBITS_LE_1024,VBITS_LE_512 |
| ; RUN: llc -aarch64-sve-vector-bits-min=640 < %s | FileCheck %s -D#VBYTES=64 -check-prefixes=CHECK,VBITS_LE_1024,VBITS_LE_512 |
| ; RUN: llc -aarch64-sve-vector-bits-min=768 < %s | FileCheck %s -D#VBYTES=64 -check-prefixes=CHECK,VBITS_LE_1024,VBITS_LE_512 |
| ; RUN: llc -aarch64-sve-vector-bits-min=896 < %s | FileCheck %s -D#VBYTES=64 -check-prefixes=CHECK,VBITS_LE_1024,VBITS_LE_512 |
| ; RUN: llc -aarch64-sve-vector-bits-min=1024 < %s | FileCheck %s -D#VBYTES=128 -check-prefixes=CHECK,VBITS_LE_1024 |
| ; RUN: llc -aarch64-sve-vector-bits-min=1152 < %s | FileCheck %s -D#VBYTES=128 -check-prefixes=CHECK,VBITS_LE_1024 |
| ; RUN: llc -aarch64-sve-vector-bits-min=1280 < %s | FileCheck %s -D#VBYTES=128 -check-prefixes=CHECK,VBITS_LE_1024 |
| ; RUN: llc -aarch64-sve-vector-bits-min=1408 < %s | FileCheck %s -D#VBYTES=128 -check-prefixes=CHECK,VBITS_LE_1024 |
| ; RUN: llc -aarch64-sve-vector-bits-min=1536 < %s | FileCheck %s -D#VBYTES=128 -check-prefixes=CHECK,VBITS_LE_1024 |
| ; RUN: llc -aarch64-sve-vector-bits-min=1664 < %s | FileCheck %s -D#VBYTES=128 -check-prefixes=CHECK,VBITS_LE_1024 |
| ; RUN: llc -aarch64-sve-vector-bits-min=1792 < %s | FileCheck %s -D#VBYTES=128 -check-prefixes=CHECK,VBITS_LE_1024 |
| ; RUN: llc -aarch64-sve-vector-bits-min=1920 < %s | FileCheck %s -D#VBYTES=128 -check-prefixes=CHECK,VBITS_LE_1024 |
| ; RUN: llc -aarch64-sve-vector-bits-min=2048 < %s | FileCheck %s -D#VBYTES=256 -check-prefixes=CHECK |
| |
| ; VBYTES represents the useful byte size of a vector register from the code |
| ; generator's point of view. It is clamped to power-of-2 values because |
| ; only power-of-2 vector lengths are considered legal, regardless of the |
| ; user specified vector length. |
| |
| target triple = "aarch64-unknown-linux-gnu" |
| |
| ; Don't use SVE when its registers are no bigger than NEON. |
| ; NO_SVE-NOT: ptrue |
| |
| ; Don't use SVE for 64-bit vectors. |
| define void @store_v2f32(<2 x float>* %a) #0 { |
| ; CHECK-LABEL: store_v2f32: |
| ; CHECK: str xzr, [x0] |
| ; CHECK: ret |
| store <2 x float> zeroinitializer, <2 x float>* %a |
| ret void |
| } |
| |
| ; Don't use SVE for 128-bit vectors. |
| define void @store_v4f32(<4 x float>* %a) #0 { |
| ; CHECK-LABEL: store_v4f32: |
| ; CHECK: stp xzr, xzr, [x0] |
| ; CHECK: ret |
| store <4 x float> zeroinitializer, <4 x float>* %a |
| ret void |
| } |
| |
| define void @store_v8f32(<8 x float>* %a) #0 { |
| ; CHECK-LABEL: store_v8f32: |
| ; CHECK: ptrue [[PG:p[0-9]+]].s, vl[[#min(div(VBYTES,4),8)]] |
| ; CHECK: st1w { z{{[0-9]+}}.s }, [[PG]], [x0] |
| ; CHECK: ret |
| store <8 x float> zeroinitializer, <8 x float>* %a |
| ret void |
| } |
| |
| define void @store_v16f32(<16 x float>* %a) #0 { |
| ; CHECK-LABEL: store_v16f32: |
| ; CHECK-DAG: ptrue [[PG:p[0-9]+]].s, vl[[#min(div(VBYTES,4),16)]] |
| ; CHECK-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0] |
| ; VBITS_LE_256-DAG: mov x[[A1:[0-9]+]], #[[#div(VBYTES,4)]] |
| ; VBITS_LE_256-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A1]], lsl #2] |
| ; CHECK: ret |
| store <16 x float> zeroinitializer, <16 x float>* %a |
| ret void |
| } |
| |
| define void @store_v32f32(<32 x float>* %a) #0 { |
| ; CHECK-LABEL: store_v32f32: |
| ; CHECK-DAG: ptrue [[PG:p[0-9]+]].s, vl[[#min(div(VBYTES,4),32)]] |
| ; CHECK-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0] |
| ; VBITS_LE_512-DAG: mov x[[A1:[0-9]+]], #[[#div(VBYTES,4)]] |
| ; VBITS_LE_512-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A1]], lsl #2] |
| ; VBITS_LE_256-DAG: mov x[[A2:[0-9]+]], #[[#mul(div(VBYTES,4),2)]] |
| ; VBITS_LE_256-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A2]], lsl #2] |
| ; VBITS_LE_256-DAG: mov x[[A3:[0-9]+]], #[[#mul(div(VBYTES,4),3)]] |
| ; VBITS_LE_256-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A3]], lsl #2] |
| ; CHECK: ret |
| store <32 x float> zeroinitializer, <32 x float>* %a |
| ret void |
| } |
| |
| define void @store_v64f32(<64 x float>* %a) #0 { |
| ; CHECK-LABEL: store_v64f32: |
| ; CHECK-DAG: ptrue [[PG:p[0-9]+]].s, vl[[#min(div(VBYTES,4),64)]] |
| ; CHECK-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0] |
| ; VBITS_LE_1024-DAG: mov x[[A1:[0-9]+]], #[[#div(VBYTES,4)]] |
| ; VBITS_LE_1024-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A1]], lsl #2] |
| ; VBITS_LE_512-DAG: mov x[[A2:[0-9]+]], #[[#mul(div(VBYTES,4),2)]] |
| ; VBITS_LE_512-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A2]], lsl #2] |
| ; VBITS_LE_512-DAG: mov x[[A3:[0-9]+]], #[[#mul(div(VBYTES,4),3)]] |
| ; VBITS_LE_512-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A3]], lsl #2] |
| ; VBITS_LE_256-DAG: mov x[[A4:[0-9]+]], #[[#mul(div(VBYTES,4),4)]] |
| ; VBITS_LE_256-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A4]], lsl #2] |
| ; VBITS_LE_256-DAG: mov x[[A5:[0-9]+]], #[[#mul(div(VBYTES,4),5)]] |
| ; VBITS_LE_256-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A5]], lsl #2] |
| ; VBITS_LE_256-DAG: mov x[[A6:[0-9]+]], #[[#mul(div(VBYTES,4),6)]] |
| ; VBITS_LE_256-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A6]], lsl #2] |
| ; VBITS_LE_256-DAG: mov x[[A7:[0-9]+]], #[[#mul(div(VBYTES,4),7)]] |
| ; VBITS_LE_256-DAG: st1w { z{{[0-9]+}}.s }, [[PG]], [x0, x[[A7]], lsl #2] |
| ; CHECK: ret |
| store <64 x float> zeroinitializer, <64 x float>* %a |
| ret void |
| } |
| |
| attributes #0 = { "target-features"="+sve" } |