; ## Full FP16 support enabled by default. ; RUN: llc < %s -mtriple=nvptx64-nvidia-cuda -mcpu=sm_53 -asm-verbose=false \ ; RUN: -O0 -disable-post-ra -frame-pointer=all -verify-machineinstrs \ ; RUN: | FileCheck -check-prefixes CHECK,CHECK-NOFTZ,CHECK-F16-NOFTZ %s ; RUN: %if ptxas %{ \ ; RUN: llc < %s -mtriple=nvptx64-nvidia-cuda -mcpu=sm_53 -asm-verbose=false \ ; RUN: -O0 -disable-post-ra -frame-pointer=all -verify-machineinstrs \ ; RUN: | %ptxas-verify -arch=sm_53 \ ; RUN: %} ; ## Full FP16 with FTZ ; RUN: llc < %s -mtriple=nvptx64-nvidia-cuda -mcpu=sm_53 -asm-verbose=false \ ; RUN: -O0 -disable-post-ra -frame-pointer=all -verify-machineinstrs \ ; RUN: -denormal-fp-math-f32=preserve-sign \ ; RUN: | FileCheck -check-prefixes CHECK,CHECK-F16-FTZ %s ; RUN: %if ptxas %{ \ ; RUN: llc < %s -mtriple=nvptx64-nvidia-cuda -mcpu=sm_53 -asm-verbose=false \ ; RUN: -O0 -disable-post-ra -frame-pointer=all -verify-machineinstrs \ ; RUN: -denormal-fp-math-f32=preserve-sign \ ; RUN: | %ptxas-verify -arch=sm_53 \ ; RUN: %} ; ## FP16 support explicitly disabled. ; RUN: llc < %s -mtriple=nvptx64-nvidia-cuda -mcpu=sm_53 -asm-verbose=false \ ; RUN: -O0 -disable-post-ra -frame-pointer=all --nvptx-no-f16-math \ ; RUN: -verify-machineinstrs \ ; RUN: | FileCheck -check-prefixes CHECK,CHECK-NOFTZ,CHECK-NOF16 %s ; RUN: %if ptxas %{ \ ; RUN: llc < %s -mtriple=nvptx64-nvidia-cuda -mcpu=sm_53 -asm-verbose=false \ ; RUN: -O0 -disable-post-ra -frame-pointer=all --nvptx-no-f16-math \ ; RUN: | %ptxas-verify -arch=sm_53 \ ; RUN: %} ; ## FP16 is not supported by hardware. ; RUN: llc < %s -O0 -mtriple=nvptx64-nvidia-cuda -mcpu=sm_52 -asm-verbose=false \ ; RUN: -disable-post-ra -frame-pointer=all -verify-machineinstrs \ ; RUN: | FileCheck -check-prefixes CHECK,CHECK-NOFTZ,CHECK-NOF16 %s ; RUN: %if ptxas %{ \ ; RUN: llc < %s -O0 -mtriple=nvptx64-nvidia-cuda -mcpu=sm_52 -asm-verbose=false \ ; RUN: -disable-post-ra -frame-pointer=all -verify-machineinstrs \ ; RUN: | %ptxas-verify -arch=sm_52 \ ; RUN: %} target datalayout = "e-m:o-i64:64-i128:128-n32:64-S128" ; CHECK-LABEL: test_ret_const( ; CHECK: mov.b16 [[R:%h[0-9]+]], 0x3C00; ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_ret_const() #0 { ret half 1.0 } ; CHECK-LABEL: test_fadd( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fadd_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fadd_param_1]; ; CHECK-F16-NOFTZ-NEXT: add.rn.f16 [[R:%h[0-9]+]], [[A]], [[B]]; ; CHECK-F16-FTZ-NEXT: add.rn.ftz.f16 [[R:%h[0-9]+]], [[A]], [[B]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[A32:%f[0-9]+]], [[A]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-NEXT: add.rn.f32 [[R32:%f[0-9]+]], [[A32]], [[B32]]; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_fadd(half %a, half %b) #0 { %r = fadd half %a, %b ret half %r } ; CHECK-LABEL: test_fadd_v1f16( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fadd_v1f16_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fadd_v1f16_param_1]; ; CHECK-F16-NOFTZ-NEXT: add.rn.f16 [[R:%h[0-9]+]], [[A]], [[B]]; ; CHECK-F16-FTZ-NEXT: add.rn.ftz.f16 [[R:%h[0-9]+]], [[A]], [[B]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[A32:%f[0-9]+]], [[A]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-NEXT: add.rn.f32 [[R32:%f[0-9]+]], [[A32]], [[B32]]; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define <1 x half> @test_fadd_v1f16(<1 x half> %a, <1 x half> %b) #0 { %r = fadd <1 x half> %a, %b ret <1 x half> %r } ; Check that we can lower fadd with immediate arguments. ; CHECK-LABEL: test_fadd_imm_0( ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fadd_imm_0_param_0]; ; CHECK-F16-NOFTZ-DAG: mov.b16 [[A:%h[0-9]+]], 0x3C00; ; CHECK-F16-NOFTZ-NEXT: add.rn.f16 [[R:%h[0-9]+]], [[B]], [[A]]; ; CHECK-F16-FTZ-DAG: mov.b16 [[A:%h[0-9]+]], 0x3C00; ; CHECK-F16-FTZ-NEXT: add.rn.ftz.f16 [[R:%h[0-9]+]], [[B]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-NEXT: add.rn.f32 [[R32:%f[0-9]+]], [[B32]], 0f3F800000; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_fadd_imm_0(half %b) #0 { %r = fadd half 1.0, %b ret half %r } ; CHECK-LABEL: test_fadd_imm_1( ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fadd_imm_1_param_0]; ; CHECK-F16-NOFTZ-DAG: mov.b16 [[A:%h[0-9]+]], 0x3C00; ; CHECK-F16-NOFTZ-NEXT: add.rn.f16 [[R:%h[0-9]+]], [[B]], [[A]]; ; CHECK-F16-FTZ-DAG: mov.b16 [[A:%h[0-9]+]], 0x3C00; ; CHECK-F16-FTZ-NEXT: add.rn.ftz.f16 [[R:%h[0-9]+]], [[B]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-NEXT: add.rn.f32 [[R32:%f[0-9]+]], [[B32]], 0f3F800000; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_fadd_imm_1(half %a) #0 { %r = fadd half %a, 1.0 ret half %r } ; CHECK-LABEL: test_fsub( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fsub_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fsub_param_1]; ; CHECK-F16-NOFTZ-NEXT: sub.rn.f16 [[R:%h[0-9]+]], [[A]], [[B]]; ; CHECK-F16-FTZ-NEXT: sub.rn.ftz.f16 [[R:%h[0-9]+]], [[A]], [[B]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[A32:%f[0-9]+]], [[A]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-NEXT: sub.rn.f32 [[R32:%f[0-9]+]], [[A32]], [[B32]]; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_fsub(half %a, half %b) #0 { %r = fsub half %a, %b ret half %r } ; CHECK-LABEL: test_fneg( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fneg_param_0]; ; CHECK-F16-NOFTZ-NEXT: mov.b16 [[Z:%h[0-9]+]], 0x0000 ; CHECK-F16-NOFTZ-NEXT: sub.rn.f16 [[R:%h[0-9]+]], [[Z]], [[A]]; ; CHECK-F16-FTZ-NEXT: mov.b16 [[Z:%h[0-9]+]], 0x0000 ; CHECK-F16-FTZ-NEXT: sub.rn.ftz.f16 [[R:%h[0-9]+]], [[Z]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[A32:%f[0-9]+]], [[A]] ; CHECK-NOF16-DAG: mov.f32 [[Z:%f[0-9]+]], 0f00000000; ; CHECK-NOF16-NEXT: sub.rn.f32 [[R32:%f[0-9]+]], [[Z]], [[A32]]; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_fneg(half %a) #0 { %r = fsub half 0.0, %a ret half %r } ; CHECK-LABEL: test_fmul( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fmul_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fmul_param_1]; ; CHECK-F16-NOFTZ-NEXT: mul.rn.f16 [[R:%h[0-9]+]], [[A]], [[B]]; ; CHECK-F16-FTZ-NEXT: mul.rn.ftz.f16 [[R:%h[0-9]+]], [[A]], [[B]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[A32:%f[0-9]+]], [[A]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-NEXT: mul.rn.f32 [[R32:%f[0-9]+]], [[A32]], [[B32]]; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_fmul(half %a, half %b) #0 { %r = fmul half %a, %b ret half %r } ; CHECK-LABEL: test_fdiv( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fdiv_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fdiv_param_1]; ; CHECK-NOFTZ-DAG: cvt.f32.f16 [[F0:%f[0-9]+]], [[A]]; ; CHECK-NOFTZ-DAG: cvt.f32.f16 [[F1:%f[0-9]+]], [[B]]; ; CHECK-NOFTZ-NEXT: div.rn.f32 [[FR:%f[0-9]+]], [[F0]], [[F1]]; ; CHECK-F16-FTZ-DAG: cvt.ftz.f32.f16 [[F0:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ-DAG: cvt.ftz.f32.f16 [[F1:%f[0-9]+]], [[B]]; ; CHECK-F16-FTZ-NEXT: div.rn.ftz.f32 [[FR:%f[0-9]+]], [[F0]], [[F1]]; ; CHECK-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[FR]]; ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_fdiv(half %a, half %b) #0 { %r = fdiv half %a, %b ret half %r } ; CHECK-LABEL: test_frem( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_frem_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_frem_param_1]; ; CHECK-NOFTZ-DAG: cvt.f32.f16 [[FA:%f[0-9]+]], [[A]]; ; CHECK-NOFTZ-DAG: cvt.f32.f16 [[FB:%f[0-9]+]], [[B]]; ; CHECK-NOFTZ-NEXT: div.rn.f32 [[D:%f[0-9]+]], [[FA]], [[FB]]; ; CHECK-NOFTZ-NEXT: cvt.rzi.f32.f32 [[DI:%f[0-9]+]], [[D]]; ; CHECK-NOFTZ-NEXT: mul.f32 [[RI:%f[0-9]+]], [[DI]], [[FB]]; ; CHECK-NOFTZ-NEXT: sub.f32 [[RF:%f[0-9]+]], [[FA]], [[RI]]; ; CHECK-F16-FTZ-DAG: cvt.ftz.f32.f16 [[FA:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ-DAG: cvt.ftz.f32.f16 [[FB:%f[0-9]+]], [[B]]; ; CHECK-F16-FTZ-NEXT: div.rn.ftz.f32 [[D:%f[0-9]+]], [[FA]], [[FB]]; ; CHECK-F16-FTZ-NEXT: cvt.rzi.ftz.f32.f32 [[DI:%f[0-9]+]], [[D]]; ; CHECK-F16-FTZ-NEXT: mul.ftz.f32 [[RI:%f[0-9]+]], [[DI]], [[FB]]; ; CHECK-F16-FTZ-NEXT: sub.ftz.f32 [[RF:%f[0-9]+]], [[FA]], [[RI]]; ; CHECK-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[RF]]; ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_frem(half %a, half %b) #0 { %r = frem half %a, %b ret half %r } ; CHECK-LABEL: test_store( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_store_param_0]; ; CHECK-DAG: ld.param.u64 %[[PTR:rd[0-9]+]], [test_store_param_1]; ; CHECK-NEXT: st.b16 [%[[PTR]]], [[A]]; ; CHECK-NEXT: ret; define void @test_store(half %a, half* %b) #0 { store half %a, half* %b ret void } ; CHECK-LABEL: test_load( ; CHECK: ld.param.u64 %[[PTR:rd[0-9]+]], [test_load_param_0]; ; CHECK-NEXT: ld.b16 [[R:%h[0-9]+]], [%[[PTR]]]; ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_load(half* %a) #0 { %r = load half, half* %a ret half %r } ; CHECK-LABEL: .visible .func test_halfp0a1( ; CHECK-DAG: ld.param.u64 %[[FROM:rd?[0-9]+]], [test_halfp0a1_param_0]; ; CHECK-DAG: ld.param.u64 %[[TO:rd?[0-9]+]], [test_halfp0a1_param_1]; ; CHECK-DAG: ld.u8 [[B0:%r[sd]?[0-9]+]], [%[[FROM]]] ; CHECK-DAG: st.u8 [%[[TO]]], [[B0]] ; CHECK-DAG: ld.u8 [[B1:%r[sd]?[0-9]+]], [%[[FROM]]+1] ; CHECK-DAG: st.u8 [%[[TO]]+1], [[B1]] ; CHECK: ret define void @test_halfp0a1(half * noalias readonly %from, half * %to) { %1 = load half, half * %from , align 1 store half %1, half * %to , align 1 ret void } declare half @test_callee(half %a, half %b) #0 ; CHECK-LABEL: test_call( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_call_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_call_param_1]; ; CHECK: { ; CHECK-DAG: .param .b32 param0; ; CHECK-DAG: .param .b32 param1; ; CHECK-DAG: st.param.b16 [param0+0], [[A]]; ; CHECK-DAG: st.param.b16 [param1+0], [[B]]; ; CHECK-DAG: .param .b32 retval0; ; CHECK: call.uni (retval0), ; CHECK-NEXT: test_callee, ; CHECK: ); ; CHECK-NEXT: ld.param.b16 [[R:%h[0-9]+]], [retval0+0]; ; CHECK-NEXT: } ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_call(half %a, half %b) #0 { %r = call half @test_callee(half %a, half %b) ret half %r } ; CHECK-LABEL: test_call_flipped( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_call_flipped_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_call_flipped_param_1]; ; CHECK: { ; CHECK-DAG: .param .b32 param0; ; CHECK-DAG: .param .b32 param1; ; CHECK-DAG: st.param.b16 [param0+0], [[B]]; ; CHECK-DAG: st.param.b16 [param1+0], [[A]]; ; CHECK-DAG: .param .b32 retval0; ; CHECK: call.uni (retval0), ; CHECK-NEXT: test_callee, ; CHECK: ); ; CHECK-NEXT: ld.param.b16 [[R:%h[0-9]+]], [retval0+0]; ; CHECK-NEXT: } ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_call_flipped(half %a, half %b) #0 { %r = call half @test_callee(half %b, half %a) ret half %r } ; CHECK-LABEL: test_tailcall_flipped( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_tailcall_flipped_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_tailcall_flipped_param_1]; ; CHECK: { ; CHECK-DAG: .param .b32 param0; ; CHECK-DAG: .param .b32 param1; ; CHECK-DAG: st.param.b16 [param0+0], [[B]]; ; CHECK-DAG: st.param.b16 [param1+0], [[A]]; ; CHECK-DAG: .param .b32 retval0; ; CHECK: call.uni (retval0), ; CHECK-NEXT: test_callee, ; CHECK: ); ; CHECK-NEXT: ld.param.b16 [[R:%h[0-9]+]], [retval0+0]; ; CHECK-NEXT: } ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_tailcall_flipped(half %a, half %b) #0 { %r = tail call half @test_callee(half %b, half %a) ret half %r } ; CHECK-LABEL: test_select( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_select_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_select_param_1]; ; CHECK-DAG: setp.eq.b16 [[PRED:%p[0-9]+]], %rs{{.*}}, 1; ; CHECK-NEXT: selp.b16 [[R:%h[0-9]+]], [[A]], [[B]], [[PRED]]; ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_select(half %a, half %b, i1 zeroext %c) #0 { %r = select i1 %c, half %a, half %b ret half %r } ; CHECK-LABEL: test_select_cc( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_select_cc_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_select_cc_param_1]; ; CHECK-DAG: ld.param.b16 [[C:%h[0-9]+]], [test_select_cc_param_2]; ; CHECK-DAG: ld.param.b16 [[D:%h[0-9]+]], [test_select_cc_param_3]; ; CHECK-F16-NOFTZ: setp.neu.f16 [[PRED:%p[0-9]+]], [[C]], [[D]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[DF:%f[0-9]+]], [[D]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[CF:%f[0-9]+]], [[C]]; ; CHECK-NOF16: setp.neu.f32 [[PRED:%p[0-9]+]], [[CF]], [[DF]] ; CHECK: selp.b16 [[R:%h[0-9]+]], [[A]], [[B]], [[PRED]]; ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_select_cc(half %a, half %b, half %c, half %d) #0 { %cc = fcmp une half %c, %d %r = select i1 %cc, half %a, half %b ret half %r } ; CHECK-LABEL: test_select_cc_f32_f16( ; CHECK-DAG: ld.param.f32 [[A:%f[0-9]+]], [test_select_cc_f32_f16_param_0]; ; CHECK-DAG: ld.param.f32 [[B:%f[0-9]+]], [test_select_cc_f32_f16_param_1]; ; CHECK-DAG: ld.param.b16 [[C:%h[0-9]+]], [test_select_cc_f32_f16_param_2]; ; CHECK-DAG: ld.param.b16 [[D:%h[0-9]+]], [test_select_cc_f32_f16_param_3]; ; CHECK-F16-NOFTZ: setp.neu.f16 [[PRED:%p[0-9]+]], [[C]], [[D]] ; CHECK-F16-FTZ: setp.neu.ftz.f16 [[PRED:%p[0-9]+]], [[C]], [[D]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[DF:%f[0-9]+]], [[D]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[CF:%f[0-9]+]], [[C]]; ; CHECK-NOF16: setp.neu.f32 [[PRED:%p[0-9]+]], [[CF]], [[DF]] ; CHECK-NEXT: selp.f32 [[R:%f[0-9]+]], [[A]], [[B]], [[PRED]]; ; CHECK-NEXT: st.param.f32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define float @test_select_cc_f32_f16(float %a, float %b, half %c, half %d) #0 { %cc = fcmp une half %c, %d %r = select i1 %cc, float %a, float %b ret float %r } ; CHECK-LABEL: test_select_cc_f16_f32( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_select_cc_f16_f32_param_0]; ; CHECK-DAG: ld.param.f32 [[C:%f[0-9]+]], [test_select_cc_f16_f32_param_2]; ; CHECK-DAG: ld.param.f32 [[D:%f[0-9]+]], [test_select_cc_f16_f32_param_3]; ; CHECK-NOFTZ-DAG: setp.neu.f32 [[PRED:%p[0-9]+]], [[C]], [[D]] ; CHECK-F16-FTZ-DAG: setp.neu.ftz.f32 [[PRED:%p[0-9]+]], [[C]], [[D]] ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_select_cc_f16_f32_param_1]; ; CHECK-NEXT: selp.b16 [[R:%h[0-9]+]], [[A]], [[B]], [[PRED]]; ; CHECK-NEXT: st.param.b16 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define half @test_select_cc_f16_f32(half %a, half %b, float %c, float %d) #0 { %cc = fcmp une float %c, %d %r = select i1 %cc, half %a, half %b ret half %r } ; CHECK-LABEL: test_fcmp_une( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_une_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_une_param_1]; ; CHECK-F16-NOFTZ: setp.neu.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.neu.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.neu.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_une(half %a, half %b) #0 { %r = fcmp une half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_ueq( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_ueq_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_ueq_param_1]; ; CHECK-F16-NOFTZ: setp.equ.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.equ.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.equ.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_ueq(half %a, half %b) #0 { %r = fcmp ueq half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_ugt( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_ugt_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_ugt_param_1]; ; CHECK-F16-NOFTZ: setp.gtu.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.gtu.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.gtu.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_ugt(half %a, half %b) #0 { %r = fcmp ugt half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_uge( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_uge_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_uge_param_1]; ; CHECK-F16-NOFTZ: setp.geu.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.geu.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.geu.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_uge(half %a, half %b) #0 { %r = fcmp uge half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_ult( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_ult_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_ult_param_1]; ; CHECK-F16-NOFTZ: setp.ltu.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.ltu.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.ltu.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_ult(half %a, half %b) #0 { %r = fcmp ult half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_ule( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_ule_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_ule_param_1]; ; CHECK-F16-NOFTZ: setp.leu.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.leu.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.leu.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_ule(half %a, half %b) #0 { %r = fcmp ule half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_uno( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_uno_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_uno_param_1]; ; CHECK-F16-NOFTZ: setp.nan.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.nan.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.nan.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_uno(half %a, half %b) #0 { %r = fcmp uno half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_one( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_one_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_one_param_1]; ; CHECK-F16-NOFTZ: setp.ne.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.ne.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.ne.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_one(half %a, half %b) #0 { %r = fcmp one half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_oeq( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_oeq_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_oeq_param_1]; ; CHECK-F16-NOFTZ: setp.eq.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.eq.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.eq.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_oeq(half %a, half %b) #0 { %r = fcmp oeq half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_ogt( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_ogt_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_ogt_param_1]; ; CHECK-F16-NOFTZ: setp.gt.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.gt.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.gt.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_ogt(half %a, half %b) #0 { %r = fcmp ogt half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_oge( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_oge_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_oge_param_1]; ; CHECK-F16-NOFTZ: setp.ge.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.ge.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.ge.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_oge(half %a, half %b) #0 { %r = fcmp oge half %a, %b ret i1 %r } ; XCHECK-LABEL: test_fcmp_olt( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_olt_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_olt_param_1]; ; CHECK-F16-NOFTZ: setp.lt.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.lt.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.lt.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_olt(half %a, half %b) #0 { %r = fcmp olt half %a, %b ret i1 %r } ; XCHECK-LABEL: test_fcmp_ole( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_ole_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_ole_param_1]; ; CHECK-F16-NOFTZ: setp.le.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.le.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.le.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_ole(half %a, half %b) #0 { %r = fcmp ole half %a, %b ret i1 %r } ; CHECK-LABEL: test_fcmp_ord( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fcmp_ord_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fcmp_ord_param_1]; ; CHECK-F16-NOFTZ: setp.num.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.num.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.num.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: selp.u32 [[R:%r[0-9]+]], 1, 0, [[PRED]]; ; CHECK-NEXT: st.param.b32 [func_retval0+0], [[R]]; ; CHECK-NEXT: ret; define i1 @test_fcmp_ord(half %a, half %b) #0 { %r = fcmp ord half %a, %b ret i1 %r } ; CHECK-LABEL: test_br_cc( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_br_cc_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_br_cc_param_1]; ; CHECK-DAG: ld.param.u64 %[[C:rd[0-9]+]], [test_br_cc_param_2]; ; CHECK-DAG: ld.param.u64 %[[D:rd[0-9]+]], [test_br_cc_param_3]; ; CHECK-F16-NOFTZ: setp.lt.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-F16-FTZ: setp.lt.ftz.f16 [[PRED:%p[0-9]+]], [[A]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOF16: setp.lt.f32 [[PRED:%p[0-9]+]], [[AF]], [[BF]] ; CHECK-NEXT: @[[PRED]] bra [[LABEL:\$L__BB.*]]; ; CHECK: st.u32 [%[[C]]], ; CHECK: [[LABEL]]: ; CHECK: st.u32 [%[[D]]], ; CHECK: ret; define void @test_br_cc(half %a, half %b, i32* %p1, i32* %p2) #0 { %c = fcmp uge half %a, %b br i1 %c, label %then, label %else then: store i32 0, i32* %p1 ret void else: store i32 0, i32* %p2 ret void } ; CHECK-LABEL: test_phi( ; CHECK: ld.param.u64 %[[P1:rd[0-9]+]], [test_phi_param_0]; ; CHECK: ld.b16 {{%h[0-9]+}}, [%[[P1]]]; ; CHECK: [[LOOP:\$L__BB[0-9_]+]]: ; CHECK: mov.b16 [[R:%h[0-9]+]], [[AB:%h[0-9]+]]; ; CHECK: ld.b16 [[AB:%h[0-9]+]], [%[[P1]]]; ; CHECK: { ; CHECK: st.param.b64 [param0+0], %[[P1]]; ; CHECK: call.uni (retval0), ; CHECK-NEXT: test_dummy ; CHECK: } ; CHECK: setp.eq.b32 [[PRED:%p[0-9]+]], %r{{[0-9]+}}, 1; ; CHECK: @[[PRED]] bra [[LOOP]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_phi(half* %p1) #0 { entry: %a = load half, half* %p1 br label %loop loop: %r = phi half [%a, %entry], [%b, %loop] %b = load half, half* %p1 %c = call i1 @test_dummy(half* %p1) br i1 %c, label %loop, label %return return: ret half %r } declare i1 @test_dummy(half* %p1) #0 ; CHECK-LABEL: test_fptosi_i32( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_fptosi_i32_param_0]; ; CHECK: cvt.rzi.s32.f16 [[R:%r[0-9]+]], [[A]]; ; CHECK: st.param.b32 [func_retval0+0], [[R]]; ; CHECK: ret; define i32 @test_fptosi_i32(half %a) #0 { %r = fptosi half %a to i32 ret i32 %r } ; CHECK-LABEL: test_fptosi_i64( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_fptosi_i64_param_0]; ; CHECK: cvt.rzi.s64.f16 [[R:%rd[0-9]+]], [[A]]; ; CHECK: st.param.b64 [func_retval0+0], [[R]]; ; CHECK: ret; define i64 @test_fptosi_i64(half %a) #0 { %r = fptosi half %a to i64 ret i64 %r } ; CHECK-LABEL: test_fptoui_i32( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_fptoui_i32_param_0]; ; CHECK: cvt.rzi.u32.f16 [[R:%r[0-9]+]], [[A]]; ; CHECK: st.param.b32 [func_retval0+0], [[R]]; ; CHECK: ret; define i32 @test_fptoui_i32(half %a) #0 { %r = fptoui half %a to i32 ret i32 %r } ; CHECK-LABEL: test_fptoui_i64( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_fptoui_i64_param_0]; ; CHECK: cvt.rzi.u64.f16 [[R:%rd[0-9]+]], [[A]]; ; CHECK: st.param.b64 [func_retval0+0], [[R]]; ; CHECK: ret; define i64 @test_fptoui_i64(half %a) #0 { %r = fptoui half %a to i64 ret i64 %r } ; CHECK-LABEL: test_uitofp_i32( ; CHECK: ld.param.u32 [[A:%r[0-9]+]], [test_uitofp_i32_param_0]; ; CHECK: cvt.rn.f16.u32 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_uitofp_i32(i32 %a) #0 { %r = uitofp i32 %a to half ret half %r } ; CHECK-LABEL: test_uitofp_i64( ; CHECK: ld.param.u64 [[A:%rd[0-9]+]], [test_uitofp_i64_param_0]; ; CHECK: cvt.rn.f16.u64 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_uitofp_i64(i64 %a) #0 { %r = uitofp i64 %a to half ret half %r } ; CHECK-LABEL: test_sitofp_i32( ; CHECK: ld.param.u32 [[A:%r[0-9]+]], [test_sitofp_i32_param_0]; ; CHECK: cvt.rn.f16.s32 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_sitofp_i32(i32 %a) #0 { %r = sitofp i32 %a to half ret half %r } ; CHECK-LABEL: test_sitofp_i64( ; CHECK: ld.param.u64 [[A:%rd[0-9]+]], [test_sitofp_i64_param_0]; ; CHECK: cvt.rn.f16.s64 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_sitofp_i64(i64 %a) #0 { %r = sitofp i64 %a to half ret half %r } ; CHECK-LABEL: test_uitofp_i32_fadd( ; CHECK-DAG: ld.param.u32 [[A:%r[0-9]+]], [test_uitofp_i32_fadd_param_0]; ; CHECK-DAG: cvt.rn.f16.u32 [[C:%h[0-9]+]], [[A]]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_uitofp_i32_fadd_param_1]; ; CHECK-F16-NOFTZ: add.rn.f16 [[R:%h[0-9]+]], [[B]], [[C]]; ; CHECK-F16-FTZ: add.rn.ftz.f16 [[R:%h[0-9]+]], [[B]], [[C]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[C32:%f[0-9]+]], [[C]] ; CHECK-NOF16-NEXT: add.rn.f32 [[R32:%f[0-9]+]], [[B32]], [[C32]]; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_uitofp_i32_fadd(i32 %a, half %b) #0 { %c = uitofp i32 %a to half %r = fadd half %b, %c ret half %r } ; CHECK-LABEL: test_sitofp_i32_fadd( ; CHECK-DAG: ld.param.u32 [[A:%r[0-9]+]], [test_sitofp_i32_fadd_param_0]; ; CHECK-DAG: cvt.rn.f16.s32 [[C:%h[0-9]+]], [[A]]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_sitofp_i32_fadd_param_1]; ; CHECK-F16-NOFTZ: add.rn.f16 [[R:%h[0-9]+]], [[B]], [[C]]; ; CHECK-F16-FTZ: add.rn.ftz.f16 [[R:%h[0-9]+]], [[B]], [[C]]; ; XCHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; XCHECK-NOF16-DAG: cvt.f32.f16 [[C32:%f[0-9]+]], [[C]] ; XCHECK-NOF16-NEXT: add.rn.f32 [[R32:%f[0-9]+]], [[B32]], [[C32]]; ; XCHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_sitofp_i32_fadd(i32 %a, half %b) #0 { %c = sitofp i32 %a to half %r = fadd half %b, %c ret half %r } ; CHECK-LABEL: test_fptrunc_float( ; CHECK: ld.param.f32 [[A:%f[0-9]+]], [test_fptrunc_float_param_0]; ; CHECK: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_fptrunc_float(float %a) #0 { %r = fptrunc float %a to half ret half %r } ; CHECK-LABEL: test_fptrunc_double( ; CHECK: ld.param.f64 [[A:%fd[0-9]+]], [test_fptrunc_double_param_0]; ; CHECK: cvt.rn.f16.f64 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_fptrunc_double(double %a) #0 { %r = fptrunc double %a to half ret half %r } ; CHECK-LABEL: test_fpext_float( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_fpext_float_param_0]; ; CHECK-NOFTZ: cvt.f32.f16 [[R:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ: cvt.ftz.f32.f16 [[R:%f[0-9]+]], [[A]]; ; CHECK: st.param.f32 [func_retval0+0], [[R]]; ; CHECK: ret; define float @test_fpext_float(half %a) #0 { %r = fpext half %a to float ret float %r } ; CHECK-LABEL: test_fpext_double( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_fpext_double_param_0]; ; CHECK: cvt.f64.f16 [[R:%fd[0-9]+]], [[A]]; ; CHECK: st.param.f64 [func_retval0+0], [[R]]; ; CHECK: ret; define double @test_fpext_double(half %a) #0 { %r = fpext half %a to double ret double %r } ; CHECK-LABEL: test_bitcast_halftoi16( ; CHECK: ld.param.b16 [[AH:%h[0-9]+]], [test_bitcast_halftoi16_param_0]; ; CHECK: mov.b16 [[AS:%rs[0-9]+]], [[AH]] ; CHECK: cvt.u32.u16 [[R:%r[0-9]+]], [[AS]] ; CHECK: st.param.b32 [func_retval0+0], [[R]]; ; CHECK: ret; define i16 @test_bitcast_halftoi16(half %a) #0 { %r = bitcast half %a to i16 ret i16 %r } ; CHECK-LABEL: test_bitcast_i16tohalf( ; CHECK: ld.param.u16 [[AS:%rs[0-9]+]], [test_bitcast_i16tohalf_param_0]; ; CHECK: mov.b16 [[AH:%h[0-9]+]], [[AS]] ; CHECK: st.param.b16 [func_retval0+0], [[AH]]; ; CHECK: ret; define half @test_bitcast_i16tohalf(i16 %a) #0 { %r = bitcast i16 %a to half ret half %r } declare half @llvm.sqrt.f16(half %a) #0 declare half @llvm.powi.f16.i32(half %a, i32 %b) #0 declare half @llvm.sin.f16(half %a) #0 declare half @llvm.cos.f16(half %a) #0 declare half @llvm.pow.f16(half %a, half %b) #0 declare half @llvm.exp.f16(half %a) #0 declare half @llvm.exp2.f16(half %a) #0 declare half @llvm.log.f16(half %a) #0 declare half @llvm.log10.f16(half %a) #0 declare half @llvm.log2.f16(half %a) #0 declare half @llvm.fma.f16(half %a, half %b, half %c) #0 declare half @llvm.fabs.f16(half %a) #0 declare half @llvm.minnum.f16(half %a, half %b) #0 declare half @llvm.maxnum.f16(half %a, half %b) #0 declare half @llvm.copysign.f16(half %a, half %b) #0 declare half @llvm.floor.f16(half %a) #0 declare half @llvm.ceil.f16(half %a) #0 declare half @llvm.trunc.f16(half %a) #0 declare half @llvm.rint.f16(half %a) #0 declare half @llvm.nearbyint.f16(half %a) #0 declare half @llvm.round.f16(half %a) #0 declare half @llvm.fmuladd.f16(half %a, half %b, half %c) #0 ; CHECK-LABEL: test_sqrt( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_sqrt_param_0]; ; CHECK-NOFTZ: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOFTZ: sqrt.rn.f32 [[RF:%f[0-9]+]], [[AF]]; ; CHECK-F16-FTZ: cvt.ftz.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ: sqrt.rn.ftz.f32 [[RF:%f[0-9]+]], [[AF]]; ; CHECK: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[RF]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_sqrt(half %a) #0 { %r = call half @llvm.sqrt.f16(half %a) ret half %r } ;;; Can't do this yet: requires libcall. ; XCHECK-LABEL: test_powi( ;define half @test_powi(half %a, i32 %b) #0 { ; %r = call half @llvm.powi.f16.i32(half %a, i32 %b) ; ret half %r ;} ; CHECK-LABEL: test_sin( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_sin_param_0]; ; CHECK-NOFTZ: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ: cvt.ftz.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK: sin.approx.f32 [[RF:%f[0-9]+]], [[AF]]; ; CHECK: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[RF]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_sin(half %a) #0 #1 { %r = call half @llvm.sin.f16(half %a) ret half %r } ; CHECK-LABEL: test_cos( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_cos_param_0]; ; CHECK-NOFTZ: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ: cvt.ftz.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK: cos.approx.f32 [[RF:%f[0-9]+]], [[AF]]; ; CHECK: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[RF]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_cos(half %a) #0 #1 { %r = call half @llvm.cos.f16(half %a) ret half %r } ;;; Can't do this yet: requires libcall. ; XCHECK-LABEL: test_pow( ;define half @test_pow(half %a, half %b) #0 { ; %r = call half @llvm.pow.f16(half %a, half %b) ; ret half %r ;} ;;; Can't do this yet: requires libcall. ; XCHECK-LABEL: test_exp( ;define half @test_exp(half %a) #0 { ; %r = call half @llvm.exp.f16(half %a) ; ret half %r ;} ;;; Can't do this yet: requires libcall. ; XCHECK-LABEL: test_exp2( ;define half @test_exp2(half %a) #0 { ; %r = call half @llvm.exp2.f16(half %a) ; ret half %r ;} ;;; Can't do this yet: requires libcall. ; XCHECK-LABEL: test_log( ;define half @test_log(half %a) #0 { ; %r = call half @llvm.log.f16(half %a) ; ret half %r ;} ;;; Can't do this yet: requires libcall. ; XCHECK-LABEL: test_log10( ;define half @test_log10(half %a) #0 { ; %r = call half @llvm.log10.f16(half %a) ; ret half %r ;} ;;; Can't do this yet: requires libcall. ; XCHECK-LABEL: test_log2( ;define half @test_log2(half %a) #0 { ; %r = call half @llvm.log2.f16(half %a) ; ret half %r ;} ; CHECK-LABEL: test_fma( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fma_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fma_param_1]; ; CHECK-DAG: ld.param.b16 [[C:%h[0-9]+]], [test_fma_param_2]; ; CHECK-F16-NOFTZ: fma.rn.f16 [[R:%h[0-9]+]], [[A]], [[B]], [[C]]; ; CHECK-F16-FTZ: fma.rn.ftz.f16 [[R:%h[0-9]+]], [[A]], [[B]], [[C]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[A32:%f[0-9]+]], [[A]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[C32:%f[0-9]+]], [[C]] ; CHECK-NOF16-NEXT: fma.rn.f32 [[R32:%f[0-9]+]], [[A32]], [[B32]], [[C32]]; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret define half @test_fma(half %a, half %b, half %c) #0 { %r = call half @llvm.fma.f16(half %a, half %b, half %c) ret half %r } ; CHECK-LABEL: test_fabs( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_fabs_param_0]; ; CHECK-NOFTZ: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOFTZ: abs.f32 [[RF:%f[0-9]+]], [[AF]]; ; CHECK-F16-FTZ: cvt.ftz.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ: abs.ftz.f32 [[RF:%f[0-9]+]], [[AF]]; ; CHECK: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[RF]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_fabs(half %a) #0 { %r = call half @llvm.fabs.f16(half %a) ret half %r } ; CHECK-LABEL: test_minnum( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_minnum_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_minnum_param_1]; ; CHECK-NOFTZ-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOFTZ-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOFTZ: min.f32 [[RF:%f[0-9]+]], [[AF]], [[BF]]; ; CHECK-F16-FTZ-DAG: cvt.ftz.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ-DAG: cvt.ftz.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-F16-FTZ: min.ftz.f32 [[RF:%f[0-9]+]], [[AF]], [[BF]]; ; CHECK: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[RF]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_minnum(half %a, half %b) #0 { %r = call half @llvm.minnum.f16(half %a, half %b) ret half %r } ; CHECK-LABEL: test_maxnum( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_maxnum_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_maxnum_param_1]; ; CHECK-NOFTZ-DAG: cvt.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-NOFTZ-DAG: cvt.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-NOFTZ: max.f32 [[RF:%f[0-9]+]], [[AF]], [[BF]]; ; CHECK-F16-FTZ-DAG: cvt.ftz.f32.f16 [[AF:%f[0-9]+]], [[A]]; ; CHECK-F16-FTZ-DAG: cvt.ftz.f32.f16 [[BF:%f[0-9]+]], [[B]]; ; CHECK-F16-FTZ: max.ftz.f32 [[RF:%f[0-9]+]], [[AF]], [[BF]]; ; CHECK: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[RF]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_maxnum(half %a, half %b) #0 { %r = call half @llvm.maxnum.f16(half %a, half %b) ret half %r } ; CHECK-LABEL: test_copysign( ; CHECK-DAG: ld.param.b16 [[AH:%h[0-9]+]], [test_copysign_param_0]; ; CHECK-DAG: ld.param.b16 [[BH:%h[0-9]+]], [test_copysign_param_1]; ; CHECK-DAG: mov.b16 [[AS:%rs[0-9]+]], [[AH]]; ; CHECK-DAG: mov.b16 [[BS:%rs[0-9]+]], [[BH]]; ; CHECK-DAG: and.b16 [[AX:%rs[0-9]+]], [[AS]], 32767; ; CHECK-DAG: and.b16 [[BX:%rs[0-9]+]], [[BS]], -32768; ; CHECK: or.b16 [[RX:%rs[0-9]+]], [[AX]], [[BX]]; ; CHECK: mov.b16 [[R:%h[0-9]+]], [[RX]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_copysign(half %a, half %b) #0 { %r = call half @llvm.copysign.f16(half %a, half %b) ret half %r } ; CHECK-LABEL: test_copysign_f32( ; CHECK-DAG: ld.param.b16 [[AH:%h[0-9]+]], [test_copysign_f32_param_0]; ; CHECK-DAG: ld.param.f32 [[BF:%f[0-9]+]], [test_copysign_f32_param_1]; ; CHECK-DAG: mov.b16 [[A:%rs[0-9]+]], [[AH]]; ; CHECK-DAG: mov.b32 [[B:%r[0-9]+]], [[BF]]; ; CHECK-DAG: and.b16 [[AX:%rs[0-9]+]], [[A]], 32767; ; CHECK-DAG: and.b32 [[BX0:%r[0-9]+]], [[B]], -2147483648; ; CHECK-DAG: shr.u32 [[BX1:%r[0-9]+]], [[BX0]], 16; ; CHECK-DAG: cvt.u16.u32 [[BX2:%rs[0-9]+]], [[BX1]]; ; CHECK: or.b16 [[RX:%rs[0-9]+]], [[AX]], [[BX2]]; ; CHECK: mov.b16 [[R:%h[0-9]+]], [[RX]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_copysign_f32(half %a, float %b) #0 { %tb = fptrunc float %b to half %r = call half @llvm.copysign.f16(half %a, half %tb) ret half %r } ; CHECK-LABEL: test_copysign_f64( ; CHECK-DAG: ld.param.b16 [[AH:%h[0-9]+]], [test_copysign_f64_param_0]; ; CHECK-DAG: ld.param.f64 [[BD:%fd[0-9]+]], [test_copysign_f64_param_1]; ; CHECK-DAG: mov.b16 [[A:%rs[0-9]+]], [[AH]]; ; CHECK-DAG: mov.b64 [[B:%rd[0-9]+]], [[BD]]; ; CHECK-DAG: and.b16 [[AX:%rs[0-9]+]], [[A]], 32767; ; CHECK-DAG: and.b64 [[BX0:%rd[0-9]+]], [[B]], -9223372036854775808; ; CHECK-DAG: shr.u64 [[BX1:%rd[0-9]+]], [[BX0]], 48; ; CHECK-DAG: cvt.u16.u64 [[BX2:%rs[0-9]+]], [[BX1]]; ; CHECK: or.b16 [[RX:%rs[0-9]+]], [[AX]], [[BX2]]; ; CHECK: mov.b16 [[R:%h[0-9]+]], [[RX]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_copysign_f64(half %a, double %b) #0 { %tb = fptrunc double %b to half %r = call half @llvm.copysign.f16(half %a, half %tb) ret half %r } ; CHECK-LABEL: test_copysign_extended( ; CHECK-DAG: ld.param.b16 [[AH:%h[0-9]+]], [test_copysign_extended_param_0]; ; CHECK-DAG: ld.param.b16 [[BH:%h[0-9]+]], [test_copysign_extended_param_1]; ; CHECK-DAG: mov.b16 [[AS:%rs[0-9]+]], [[AH]]; ; CHECK-DAG: mov.b16 [[BS:%rs[0-9]+]], [[BH]]; ; CHECK-DAG: and.b16 [[AX:%rs[0-9]+]], [[AS]], 32767; ; CHECK-DAG: and.b16 [[BX:%rs[0-9]+]], [[BS]], -32768; ; CHECK: or.b16 [[RX:%rs[0-9]+]], [[AX]], [[BX]]; ; CHECK: mov.b16 [[R:%h[0-9]+]], [[RX]]; ; CHECK-NOFTZ: cvt.f32.f16 [[XR:%f[0-9]+]], [[R]]; ; CHECK-F16-FTZ: cvt.ftz.f32.f16 [[XR:%f[0-9]+]], [[R]]; ; CHECK: st.param.f32 [func_retval0+0], [[XR]]; ; CHECK: ret; define float @test_copysign_extended(half %a, half %b) #0 { %r = call half @llvm.copysign.f16(half %a, half %b) %xr = fpext half %r to float ret float %xr } ; CHECK-LABEL: test_floor( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_floor_param_0]; ; CHECK: cvt.rmi.f16.f16 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_floor(half %a) #0 { %r = call half @llvm.floor.f16(half %a) ret half %r } ; CHECK-LABEL: test_ceil( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_ceil_param_0]; ; CHECK: cvt.rpi.f16.f16 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_ceil(half %a) #0 { %r = call half @llvm.ceil.f16(half %a) ret half %r } ; CHECK-LABEL: test_trunc( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_trunc_param_0]; ; CHECK: cvt.rzi.f16.f16 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_trunc(half %a) #0 { %r = call half @llvm.trunc.f16(half %a) ret half %r } ; CHECK-LABEL: test_rint( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_rint_param_0]; ; CHECK: cvt.rni.f16.f16 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_rint(half %a) #0 { %r = call half @llvm.rint.f16(half %a) ret half %r } ; CHECK-LABEL: test_nearbyint( ; CHECK: ld.param.b16 [[A:%h[0-9]+]], [test_nearbyint_param_0]; ; CHECK: cvt.rni.f16.f16 [[R:%h[0-9]+]], [[A]]; ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_nearbyint(half %a) #0 { %r = call half @llvm.nearbyint.f16(half %a) ret half %r } ; CHECK-LABEL: test_round( ; CHECK: ld.param.b16 {{.*}}, [test_round_param_0]; ; check the use of sign mask and 0.5 to implement round ; CHECK: and.b32 [[R:%r[0-9]+]], {{.*}}, -2147483648; ; CHECK: or.b32 {{.*}}, [[R]], 1056964608; ; CHECK: st.param.b16 [func_retval0+0], {{.*}}; ; CHECK: ret; define half @test_round(half %a) #0 { %r = call half @llvm.round.f16(half %a) ret half %r } ; CHECK-LABEL: test_fmuladd( ; CHECK-DAG: ld.param.b16 [[A:%h[0-9]+]], [test_fmuladd_param_0]; ; CHECK-DAG: ld.param.b16 [[B:%h[0-9]+]], [test_fmuladd_param_1]; ; CHECK-DAG: ld.param.b16 [[C:%h[0-9]+]], [test_fmuladd_param_2]; ; CHECK-F16-NOFTZ: fma.rn.f16 [[R:%h[0-9]+]], [[A]], [[B]], [[C]]; ; CHECK-F16-FTZ: fma.rn.ftz.f16 [[R:%h[0-9]+]], [[A]], [[B]], [[C]]; ; CHECK-NOF16-DAG: cvt.f32.f16 [[A32:%f[0-9]+]], [[A]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[B32:%f[0-9]+]], [[B]] ; CHECK-NOF16-DAG: cvt.f32.f16 [[C32:%f[0-9]+]], [[C]] ; CHECK-NOF16-NEXT: fma.rn.f32 [[R32:%f[0-9]+]], [[A32]], [[B32]], [[C32]]; ; CHECK-NOF16-NEXT: cvt.rn.f16.f32 [[R:%h[0-9]+]], [[R32]] ; CHECK: st.param.b16 [func_retval0+0], [[R]]; ; CHECK: ret; define half @test_fmuladd(half %a, half %b, half %c) #0 { %r = call half @llvm.fmuladd.f16(half %a, half %b, half %c) ret half %r } attributes #0 = { nounwind } attributes #1 = { "unsafe-fp-math" = "true" }