; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64le-unknown-linux-gnu \ ; RUN: -mcpu=pwr8 < %s | FileCheck %s -check-prefix=CHECK-LE \ ; RUN: --implicit-check-not xxswapd ; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64-unknown-linux-gnu \ ; RUN: -mcpu=pwr8 < %s | FileCheck %s -check-prefix=CHECK-BE ; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64-unknown-linux-gnu \ ; RUN: -mcpu=pwr8 -mattr=-vsx < %s | FileCheck %s -check-prefix=CHECK-NOVSX ; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64le-unknown-linux-gnu \ ; RUN: -mcpu=pwr8 -mattr=-vsx < %s | FileCheck %s -check-prefix=CHECK-NOVSX \ ; RUN: --implicit-check-not xxswapd ; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64-unknown-linux-gnu \ ; RUN: -mcpu=pwr8 -mattr=-vsx < %s | FileCheck %s -check-prefix=CHECK-BE-NOVSX ; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64le-unknown-linux-gnu \ ; RUN: -mcpu=pwr8 -mattr=-vsx < %s | \ ; RUN: FileCheck %s -check-prefix=CHECK-LE-NOVSX --implicit-check-not xxswapd ; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64le-unknown-linux-gnu \ ; RUN: -mcpu=pwr9 -ppc-asm-full-reg-names -ppc-vsr-nums-as-vr < %s | \ ; RUN: FileCheck %s -check-prefix=CHECK-P9 --implicit-check-not xxswapd ; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64le-unknown-linux-gnu \ ; RUN: -mcpu=pwr9 -mattr=-vsx < %s | FileCheck %s -check-prefix=CHECK-NOVSX \ ; RUN: --implicit-check-not xxswapd ; RUN: llc -relocation-model=pic -verify-machineinstrs -mtriple=powerpc64le-unknown-linux-gnu \ ; RUN: -mcpu=pwr9 -mattr=-power9-vector -mattr=-direct-move < %s | \ ; RUN: FileCheck %s -check-prefix=CHECK-LE --implicit-check-not xxswapd @x = common global <1 x i128> zeroinitializer, align 16 @y = common global <1 x i128> zeroinitializer, align 16 @a = common global i128 zeroinitializer, align 16 @b = common global i128 zeroinitializer, align 16 ; VSX: ; %a is passed in register 34 ; The value of 1 is stored in the TOC. ; On LE, ensure the value of 1 is swapped before being used (using xxswapd). ; VMX (no VSX): ; %a is passed in register 2 ; The value of 1 is stored in the TOC. ; No swaps are necessary when using P8 Vector instructions on LE define <1 x i128> @v1i128_increment_by_one(<1 x i128> %a) nounwind { %tmp = add <1 x i128> %a, ret <1 x i128> %tmp ; FIXME: Seems a 128-bit literal is materialized by loading from the TOC. There ; should be a better way of doing this. ; CHECK-LE-LABEL: @v1i128_increment_by_one ; CHECK-LE: lxvd2x [[VAL:[0-9]+]], {{[0-9]+}}, {{[0-9]+}} ; CHECK-LE: xxswapd 35, [[VAL]] ; CHECK-LE: vadduqm 2, 2, 3 ; CHECK-LE: blr ; CHECK-P9-LABEL: @v1i128_increment_by_one ; The below FIXME is due to the lowering for BUILD_VECTOR that will be fixed ; in a subsequent patch. ; FIXME: li [[R1:r[0-9]+]], 1 ; FIXME: li [[R2:r[0-9]+]], 0 ; FIXME: mtvsrdd [[V1:v[0-9]+]], [[R2]], [[R1]] ; CHECK-P9: lxvx [[V1:v[0-9]+]] ; CHECK-P9: vadduqm v2, v2, [[V1]] ; CHECK-P9: blr ; CHECK-BE-LABEL: @v1i128_increment_by_one ; CHECK-BE: lxvd2x 35, {{[0-9]+}}, {{[0-9]+}} ; CHECK-BE-NOT: xxswapd ; CHECK-BE: vadduqm 2, 2, 3 ; CHECK-BE-NOT: xxswapd 34, {{[0-9]+}} ; CHECK-BE: blr ; CHECK-NOVSX-LABEL: @v1i128_increment_by_one ; CHECK-NOVSX-NOT: xxswapd {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX-NOT: stxvd2x {{[0-9]+}}, {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX: lvx [[VAL:[0-9]+]], {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX-NOT: lxvd2x {{[0-9]+}}, {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX-NOT: xxswapd {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX: vadduqm 2, 2, [[VAL]] ; CHECK-NOVSX: blr } ; VSX: ; %a is passed in register 34 ; %b is passed in register 35 ; No swaps are necessary when using P8 Vector instructions on LE ; VMX (no VSX): ; %a is passewd in register 2 ; %b is passed in register 3 ; On LE, do not need to swap contents of 2 and 3 because the lvx/stvx ; instructions no not swap elements define <1 x i128> @v1i128_increment_by_val(<1 x i128> %a, <1 x i128> %b) nounwind { %tmp = add <1 x i128> %a, %b ret <1 x i128> %tmp ; CHECK-LE-LABEL: @v1i128_increment_by_val ; CHECK-LE-NOT: xxswapd ; CHECK-LE: adduqm 2, 2, 3 ; CHECK-LE: blr ; CHECK-BE-LABEL: @v1i128_increment_by_val ; CHECK-BE-NOT: xxswapd {{[0-9]+}}, 34 ; CHECK-BE-NOT: xxswapd {{[0-9]+}}, 35 ; CHECK-BE-NOT: xxswapd 34, [[RESULT]] ; CHECK-BE: adduqm 2, 2, 3 ; CHECK-BE: blr ; CHECK-NOVSX-LABEL: @v1i128_increment_by_val ; CHECK-NOVSX-NOT: xxswapd 34, [[RESULT]] ; CHECK-NOVSX: adduqm 2, 2, 3 ; CHECK-NOVSX: blr } ; Little Endian (VSX and VMX): ; Lower 64-bits of %a are passed in register 3 ; Upper 64-bits of %a are passed in register 4 ; Increment lower 64-bits using addic (immediate value of 1) ; Increment upper 64-bits using add zero extended ; Results are placed in registers 3 and 4 ; Big Endian (VSX and VMX) ; Lower 64-bits of %a are passed in register 4 ; Upper 64-bits of %a are passed in register 3 ; Increment lower 64-bits using addic (immediate value of 1) ; Increment upper 64-bits using add zero extended ; Results are placed in registers 3 and 4 define i128 @i128_increment_by_one(i128 %a) nounwind { %tmp = add i128 %a, 1 ret i128 %tmp ; CHECK-LE-LABEL: @i128_increment_by_one ; CHECK-LE: addic 3, 3, 1 ; CHECK-LE-NEXT: addze 4, 4 ; CHECK-LE: blr ; CHECK-BE-LABEL: @i128_increment_by_one ; CHECK-BE: addic 4, 4, 1 ; CHECK-BE-NEXT: addze 3, 3 ; CHECK-BE: blr ; CHECK-LE-NOVSX-LABEL: @i128_increment_by_one ; CHECK-LE-NOVSX: addic 3, 3, 1 ; CHECK-LE-NOVSX-NEXT: addze 4, 4 ; CHECK-LE-NOVSX: blr ; CHECK-BE-NOVSX-LABEL: @i128_increment_by_one ; CHECK-BE-NOVSX: addic 4, 4, 1 ; CHECK-BE-NOVSX-NEXT: addze 3, 3 ; CHECK-BE-NOVSX: blr } ; Little Endian (VSX and VMX): ; Lower 64-bits of %a are passed in register 3 ; Upper 64-bits of %a are passed in register 4 ; Lower 64-bits of %b are passed in register 5 ; Upper 64-bits of %b are passed in register 6 ; Add the lower 64-bits using addc on registers 3 and 5 ; Add the upper 64-bits using adde on registers 4 and 6 ; Registers 3 and 4 should hold the result ; Big Endian (VSX and VMX): ; Upper 64-bits of %a are passed in register 3 ; Lower 64-bits of %a are passed in register 4 ; Upper 64-bits of %b are passed in register 5 ; Lower 64-bits of %b are passed in register 6 ; Add the lower 64-bits using addc on registers 4 and 6 ; Add the upper 64-bits using adde on registers 3 and 5 ; Registers 3 and 4 should hold the result define i128 @i128_increment_by_val(i128 %a, i128 %b) nounwind { %tmp = add i128 %a, %b ret i128 %tmp ; CHECK-LE-LABEL: @i128_increment_by_val ; CHECK-LE: addc 3, 3, 5 ; CHECK-LE-NEXT: adde 4, 4, 6 ; CHECK-LE: blr ; CHECK-BE-LABEL: @i128_increment_by_val ; CHECK-BE: addc 4, 4, 6 ; CHECK-BE-NEXT: adde 3, 3, 5 ; CHECK-BE: blr ; CHECK-LE-NOVSX-LABEL: @i128_increment_by_val ; CHECK-LE-NOVSX: addc 3, 3, 5 ; CHECK-LE-NOVSX-NEXT: adde 4, 4, 6 ; CHECK-LE-NOVSX: blr ; CHECK-BE-NOVSX-LABEL: @i128_increment_by_val ; CHECK-BE-NOVSX: addc 4, 4, 6 ; CHECK-BE-NOVSX-NEXT: adde 3, 3, 5 ; CHECK-BE-NOVSX: blr } ; Callsites for the routines defined above. ; Ensure the parameters are loaded in the same order that is expected by the ; callee. See comments for individual functions above for details on registers ; used for parameters. define <1 x i128> @call_v1i128_increment_by_one() nounwind { %tmp = load <1 x i128>, <1 x i128>* @x, align 16 %ret = call <1 x i128> @v1i128_increment_by_one(<1 x i128> %tmp) ret <1 x i128> %ret ; CHECK-LE-LABEL: @call_v1i128_increment_by_one ; CHECK-LE: lvx 2, {{[0-9]+}}, {{[0-9]+}} ; CHECK-LE: bl v1i128_increment_by_one ; CHECK-LE: blr ; CHECK-P9-LABEL: @call_v1i128_increment_by_one ; CHECK-P9: lxv ; CHECK-P9: bl v1i128_increment_by_one ; CHECK-P9: blr ; CHECK-BE-LABEL: @call_v1i128_increment_by_one ; CHECK-BE: lxvw4x 34, {{[0-9]+}}, {{[0-9]+}} ; CHECK-BE-NOT: xxswapd 34, {{[0-9]+}} ; CHECK-BE: bl v1i128_increment_by_one ; CHECK-BE: blr ; CHECK-NOVSX-LABEL: @call_v1i128_increment_by_one ; CHECK-NOVSX: lvx 2, {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX-NOT: xxswapd {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX: bl v1i128_increment_by_one ; CHECK-NOVSX: blr } define <1 x i128> @call_v1i128_increment_by_val() nounwind { %tmp = load <1 x i128>, <1 x i128>* @x, align 16 %tmp2 = load <1 x i128>, <1 x i128>* @y, align 16 %ret = call <1 x i128> @v1i128_increment_by_val(<1 x i128> %tmp, <1 x i128> %tmp2) ret <1 x i128> %ret ; CHECK-LE-LABEL: @call_v1i128_increment_by_val ; CHECK-LE: lvx 2, {{[0-9]+}}, {{[0-9]+}} ; CHECK-LE: lvx 3, {{[0-9]+}}, {{[0-9]+}} ; CHECK-LE: bl v1i128_increment_by_val ; CHECK-LE: blr ; CHECK-P9-LABEL: @call_v1i128_increment_by_val ; CHECK-P9-DAG: lxvx v2 ; CHECK-P9-DAG: lxvx v3 ; CHECK-P9: bl v1i128_increment_by_val ; CHECK-P9: blr ; CHECK-BE-LABEL: @call_v1i128_increment_by_val ; CHECK-BE-DAG: lxvw4x 35, {{[0-9]+}}, {{[0-9]+}} ; CHECK-BE-NOT: xxswapd 34, {{[0-9]+}} ; CHECK-BE-NOT: xxswapd 35, {{[0-9]+}} ; CHECK-BE: bl v1i128_increment_by_val ; CHECK-BE: blr ; CHECK-NOVSX-LABEL: @call_v1i128_increment_by_val ; CHECK-NOVSX-DAG: lvx 2, {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX-DAG: lvx 3, {{[0-9]+}}, {{[0-9]+}} ; CHECK-NOVSX-NOT: xxswapd 34, {{[0-9]+}} ; CHECK-NOVSX-NOT: xxswapd 35, {{[0-9]+}} ; CHECK-NOVSX: bl v1i128_increment_by_val ; CHECK-NOVSX: blr } define i128 @call_i128_increment_by_one() nounwind { %tmp = load i128, i128* @a, align 16 %ret = call i128 @i128_increment_by_one(i128 %tmp) ret i128 %ret ; %ret4 = call i128 @i128_increment_by_val(i128 %tmp2, i128 %tmp2) ; CHECK-LE-LABEL: @call_i128_increment_by_one ; CHECK-LE-DAG: ld 3, 0([[BASEREG:[0-9]+]]) ; CHECK-LE-DAG: ld 4, 8([[BASEREG]]) ; CHECK-LE: bl i128_increment_by_one ; CHECK-LE: blr ; CHECK-BE-LABEL: @call_i128_increment_by_one ; CHECK-BE-DAG: ld 3, 0([[BASEREG:[0-9]+]]) ; CHECK-BE-DAG: ld 4, 8([[BASEREG]]) ; CHECK-BE: bl i128_increment_by_one ; CHECK-BE: blr ; CHECK-NOVSX-LABEL: @call_i128_increment_by_one ; CHECK-NOVSX-DAG: ld 3, 0([[BASEREG:[0-9]+]]) ; CHECK-NOVSX-DAG: ld 4, 8([[BASEREG]]) ; CHECK-NOVSX: bl i128_increment_by_one ; CHECK-NOVSX: blr } define i128 @call_i128_increment_by_val() nounwind { %tmp = load i128, i128* @a, align 16 %tmp2 = load i128, i128* @b, align 16 %ret = call i128 @i128_increment_by_val(i128 %tmp, i128 %tmp2) ret i128 %ret ; CHECK-LE-LABEL: @call_i128_increment_by_val ; CHECK-LE-DAG: ld 3, 0([[P1BASEREG:[0-9]+]]) ; CHECK-LE-DAG: ld 4, 8([[P1BASEREG]]) ; CHECK-LE-DAG: ld 5, 0([[P2BASEREG:[0-9]+]]) ; CHECK-LE-DAG: ld 6, 8([[P2BASEREG]]) ; CHECK-LE: bl i128_increment_by_val ; CHECK-LE: blr ; CHECK-BE-LABEL: @call_i128_increment_by_val ; CHECK-BE-DAG: ld 3, 0([[P1BASEREG:[0-9]+]]) ; CHECK-BE-DAG: ld 4, 8([[P1BASEREG]]) ; CHECK-BE-DAG: ld 5, 0([[P2BASEREG:[0-9]+]]) ; CHECK-BE-DAG: ld 6, 8([[P2BASEREG]]) ; CHECK-BE: bl i128_increment_by_val ; CHECK-BE: blr ; CHECK-NOVSX-LABEL: @call_i128_increment_by_val ; CHECK-NOVSX-DAG: ld 3, 0([[P1BASEREG:[0-9]+]]) ; CHECK-NOVSX-DAG: ld 4, 8([[P1BASEREG]]) ; CHECK-NOVSX-DAG: ld 5, 0([[P2BASEREG:[0-9]+]]) ; CHECK-NOVSX-DAG: ld 6, 8([[P2BASEREG]]) ; CHECK-NOVSX: bl i128_increment_by_val ; CHECK-NOVSX: blr }