; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py UTC_ARGS: --version 5 ; RUN: llc < %s -mtriple=nvptx64 -mcpu=sm_20 -fp-contract=fast -verify-machineinstrs | FileCheck %s ; RUN: %if ptxas %{ llc < %s -mtriple=nvptx64 -mcpu=sm_20 -fp-contract=fast -verify-machineinstrs | %ptxas-verify %} declare float @dummy_f32(float, float) #0 declare double @dummy_f64(double, double) #0 define ptx_device float @t1_f32(float %x, float %y, float %z) { ; CHECK-LABEL: t1_f32( ; CHECK: { ; CHECK-NEXT: .reg .b32 %r<5>; ; CHECK-EMPTY: ; CHECK-NEXT: // %bb.0: ; CHECK-NEXT: ld.param.b32 %r1, [t1_f32_param_0]; ; CHECK-NEXT: ld.param.b32 %r2, [t1_f32_param_1]; ; CHECK-NEXT: ld.param.b32 %r3, [t1_f32_param_2]; ; CHECK-NEXT: fma.rn.f32 %r4, %r1, %r2, %r3; ; CHECK-NEXT: st.param.b32 [func_retval0], %r4; ; CHECK-NEXT: ret; %a = fmul float %x, %y %b = fadd float %a, %z ret float %b } define ptx_device float @t2_f32(float %x, float %y, float %z, float %w) { ; CHECK-LABEL: t2_f32( ; CHECK: { ; CHECK-NEXT: .reg .b32 %r<9>; ; CHECK-EMPTY: ; CHECK-NEXT: // %bb.0: ; CHECK-NEXT: ld.param.b32 %r1, [t2_f32_param_0]; ; CHECK-NEXT: ld.param.b32 %r2, [t2_f32_param_1]; ; CHECK-NEXT: ld.param.b32 %r3, [t2_f32_param_2]; ; CHECK-NEXT: fma.rn.f32 %r4, %r1, %r2, %r3; ; CHECK-NEXT: ld.param.b32 %r5, [t2_f32_param_3]; ; CHECK-NEXT: fma.rn.f32 %r6, %r1, %r2, %r5; ; CHECK-NEXT: { // callseq 0, 0 ; CHECK-NEXT: .param .b32 param0; ; CHECK-NEXT: .param .b32 param1; ; CHECK-NEXT: .param .b32 retval0; ; CHECK-NEXT: st.param.b32 [param1], %r6; ; CHECK-NEXT: st.param.b32 [param0], %r4; ; CHECK-NEXT: call.uni (retval0), dummy_f32, (param0, param1); ; CHECK-NEXT: ld.param.b32 %r7, [retval0]; ; CHECK-NEXT: } // callseq 0 ; CHECK-NEXT: st.param.b32 [func_retval0], %r7; ; CHECK-NEXT: ret; %a = fmul float %x, %y %b = fadd float %a, %z %c = fadd float %a, %w %d = call float @dummy_f32(float %b, float %c) ret float %d } define ptx_device double @t1_f64(double %x, double %y, double %z) { ; CHECK-LABEL: t1_f64( ; CHECK: { ; CHECK-NEXT: .reg .b64 %rd<5>; ; CHECK-EMPTY: ; CHECK-NEXT: // %bb.0: ; CHECK-NEXT: ld.param.b64 %rd1, [t1_f64_param_0]; ; CHECK-NEXT: ld.param.b64 %rd2, [t1_f64_param_1]; ; CHECK-NEXT: ld.param.b64 %rd3, [t1_f64_param_2]; ; CHECK-NEXT: fma.rn.f64 %rd4, %rd1, %rd2, %rd3; ; CHECK-NEXT: st.param.b64 [func_retval0], %rd4; ; CHECK-NEXT: ret; %a = fmul double %x, %y %b = fadd double %a, %z ret double %b } define ptx_device double @t2_f64(double %x, double %y, double %z, double %w) { ; CHECK-LABEL: t2_f64( ; CHECK: { ; CHECK-NEXT: .reg .b64 %rd<9>; ; CHECK-EMPTY: ; CHECK-NEXT: // %bb.0: ; CHECK-NEXT: ld.param.b64 %rd1, [t2_f64_param_0]; ; CHECK-NEXT: ld.param.b64 %rd2, [t2_f64_param_1]; ; CHECK-NEXT: ld.param.b64 %rd3, [t2_f64_param_2]; ; CHECK-NEXT: fma.rn.f64 %rd4, %rd1, %rd2, %rd3; ; CHECK-NEXT: ld.param.b64 %rd5, [t2_f64_param_3]; ; CHECK-NEXT: fma.rn.f64 %rd6, %rd1, %rd2, %rd5; ; CHECK-NEXT: { // callseq 1, 0 ; CHECK-NEXT: .param .b64 param0; ; CHECK-NEXT: .param .b64 param1; ; CHECK-NEXT: .param .b64 retval0; ; CHECK-NEXT: st.param.b64 [param1], %rd6; ; CHECK-NEXT: st.param.b64 [param0], %rd4; ; CHECK-NEXT: call.uni (retval0), dummy_f64, (param0, param1); ; CHECK-NEXT: ld.param.b64 %rd7, [retval0]; ; CHECK-NEXT: } // callseq 1 ; CHECK-NEXT: st.param.b64 [func_retval0], %rd7; ; CHECK-NEXT: ret; %a = fmul double %x, %y %b = fadd double %a, %z %c = fadd double %a, %w %d = call double @dummy_f64(double %b, double %c) ret double %d } define ptx_device float @f32_iir(float %x) { ; CHECK-LABEL: f32_iir( ; CHECK: { ; CHECK-NEXT: .reg .b32 %r<3>; ; CHECK-EMPTY: ; CHECK-NEXT: // %bb.0: ; CHECK-NEXT: ld.param.b32 %r1, [f32_iir_param_0]; ; CHECK-NEXT: fma.rn.f32 %r2, 0f52E8D4A5, 0f4A52FC54, %r1; ; CHECK-NEXT: st.param.b32 [func_retval0], %r2; ; CHECK-NEXT: ret; %r = call float @llvm.fma.f32(float 499999997952.0, float 3456789.0, float %x) ret float %r } define ptx_device float @f32_iii(float %x) { ; CHECK-LABEL: f32_iii( ; CHECK: { ; CHECK-EMPTY: ; CHECK-EMPTY: ; CHECK-NEXT: // %bb.0: ; CHECK-NEXT: st.param.b32 [func_retval0], 1092616192; ; CHECK-NEXT: ret; %r = call float @llvm.fma.f32(float 2.0, float 3.0, float 4.0) ret float %r }