; RUN: llc < %s -march=nvptx -mcpu=sm_20 | FileCheck %s ; RUN: %if ptxas %{ llc < %s -march=nvptx -mcpu=sm_20 | %ptxas-verify %} declare float @llvm.sqrt.f32(float) declare double @llvm.sqrt.f64(double) ; CHECK-LABEL: sqrt_div( ; CHECK: sqrt.rn.f32 ; CHECK: div.rn.f32 define float @sqrt_div(float %a, float %b) { %t1 = tail call float @llvm.sqrt.f32(float %a) %t2 = fdiv float %t1, %b ret float %t2 } ; CHECK-LABEL: sqrt_div_fast( ; CHECK: sqrt.rn.f32 ; CHECK: div.approx.f32 define float @sqrt_div_fast(float %a, float %b) #0 { %t1 = tail call float @llvm.sqrt.f32(float %a) %t2 = fdiv float %t1, %b ret float %t2 } ; CHECK-LABEL: sqrt_div_fast_ninf( ; CHECK: sqrt.approx.f32 ; CHECK: div.approx.f32 define float @sqrt_div_fast_ninf(float %a, float %b) #0 { %t1 = tail call ninf afn float @llvm.sqrt.f32(float %a) %t2 = fdiv float %t1, %b ret float %t2 } ; CHECK-LABEL: sqrt_div_ftz( ; CHECK: sqrt.rn.ftz.f32 ; CHECK: div.rn.ftz.f32 define float @sqrt_div_ftz(float %a, float %b) #1 { %t1 = tail call float @llvm.sqrt.f32(float %a) %t2 = fdiv float %t1, %b ret float %t2 } ; CHECK-LABEL: sqrt_div_fast_ftz( ; CHECK: sqrt.rn.ftz.f32 ; CHECK: div.approx.ftz.f32 define float @sqrt_div_fast_ftz(float %a, float %b) #0 #1 { %t1 = tail call float @llvm.sqrt.f32(float %a) %t2 = fdiv float %t1, %b ret float %t2 } ; CHECK-LABEL: sqrt_div_fast_ftz_ninf( ; CHECK: sqrt.approx.ftz.f32 ; CHECK: div.approx.ftz.f32 define float @sqrt_div_fast_ftz_ninf(float %a, float %b) #0 #1 { %t1 = tail call ninf afn float @llvm.sqrt.f32(float %a) %t2 = fdiv float %t1, %b ret float %t2 } ; There are no fast-math or ftz versions of sqrt and div for f64. We use ; reciprocal(rsqrt(x)) for sqrt(x), and emit a vanilla divide. ; CHECK-LABEL: sqrt_div_fast_ftz_f64( ; CHECK: sqrt.rn.f64 ; CHECK: div.rn.f64 define double @sqrt_div_fast_ftz_f64(double %a, double %b) #0 #1 { %t1 = tail call double @llvm.sqrt.f64(double %a) %t2 = fdiv double %t1, %b ret double %t2 } ; CHECK-LABEL: sqrt_div_fast_ftz_f64_ninf( ; CHECK: rsqrt.approx.f64 ; CHECK: rcp.approx.ftz.f64 ; CHECK: div.rn.f64 define double @sqrt_div_fast_ftz_f64_ninf(double %a, double %b) #0 #1 { %t1 = tail call ninf afn double @llvm.sqrt.f64(double %a) %t2 = fdiv double %t1, %b ret double %t2 } ; CHECK-LABEL: rsqrt( ; CHECK-NOT: rsqrt.approx ; CHECK: sqrt.rn.f32 ; CHECK-NOT: rsqrt.approx define float @rsqrt(float %a) { %b = tail call float @llvm.sqrt.f32(float %a) %ret = fdiv float 1.0, %b ret float %ret } ; CHECK-LABEL: rsqrt_fast( ; CHECK-NOT: div. ; CHECK-NOT: sqrt. ; CHECK: rsqrt.approx.f32 ; CHECK-NOT: div. ; CHECK-NOT: sqrt. define float @rsqrt_fast(float %a) #0 { %b = tail call float @llvm.sqrt.f32(float %a) %ret = fdiv float 1.0, %b ret float %ret } ; CHECK-LABEL: rsqrt_fast_ftz( ; CHECK-NOT: div. ; CHECK-NOT: sqrt. ; CHECK: rsqrt.approx.ftz.f32 ; CHECK-NOT: div. ; CHECK-NOT: sqrt. define float @rsqrt_fast_ftz(float %a) #0 #1 { %b = tail call float @llvm.sqrt.f32(float %a) %ret = fdiv float 1.0, %b ret float %ret } ; CHECK-LABEL: fadd ; CHECK: add.rn.f32 define float @fadd(float %a, float %b) { %t1 = fadd float %a, %b ret float %t1 } ; CHECK-LABEL: fadd_ftz ; CHECK: add.rn.ftz.f32 define float @fadd_ftz(float %a, float %b) #1 { %t1 = fadd float %a, %b ret float %t1 } declare float @llvm.sin.f32(float) declare float @llvm.cos.f32(float) ; CHECK-LABEL: fsin_approx ; CHECK: sin.approx.f32 define float @fsin_approx(float %a) #0 { %r = tail call float @llvm.sin.f32(float %a) ret float %r } ; CHECK-LABEL: fcos_approx ; CHECK: cos.approx.f32 define float @fcos_approx(float %a) #0 { %r = tail call float @llvm.cos.f32(float %a) ret float %r } ; CHECK-LABEL: repeated_div_recip_allowed define float @repeated_div_recip_allowed(i1 %pred, float %a, float %b, float %divisor) { ; CHECK: rcp.rn.f32 ; CHECK: mul.rn.f32 ; CHECK: mul.rn.f32 ; CHECK: mul.rn.f32 ; CHECK: selp.f32 %x = fdiv arcp float %a, %divisor %y = fdiv arcp float %b, %divisor %z = fmul float %x, %y %w = select i1 %pred, float %z, float %y ret float %w } ; CHECK-LABEL: repeated_div_recip_allowed_sel define float @repeated_div_recip_allowed_sel(i1 %pred, float %a, float %b, float %divisor) { ; CHECK: selp.f32 ; CHECK: div.rn.f32 %x = fdiv arcp float %a, %divisor %y = fdiv arcp float %b, %divisor %w = select i1 %pred, float %x, float %y ret float %w } ; CHECK-LABEL: repeated_div_recip_allowed_ftz define float @repeated_div_recip_allowed_ftz(i1 %pred, float %a, float %b, float %divisor) #1 { ; CHECK: rcp.rn.ftz.f32 ; CHECK: mul.rn.ftz.f32 ; CHECK: mul.rn.ftz.f32 ; CHECK: mul.rn.ftz.f32 ; CHECK: selp.f32 %x = fdiv arcp float %a, %divisor %y = fdiv arcp float %b, %divisor %z = fmul float %x, %y %w = select i1 %pred, float %z, float %y ret float %w } ; CHECK-LABEL: repeated_div_recip_allowed_ftz_sel define float @repeated_div_recip_allowed_ftz_sel(i1 %pred, float %a, float %b, float %divisor) #1 { ; CHECK: selp.f32 ; CHECK: div.rn.ftz.f32 %x = fdiv arcp float %a, %divisor %y = fdiv arcp float %b, %divisor %w = select i1 %pred, float %x, float %y ret float %w } ; CHECK-LABEL: repeated_div_fast define float @repeated_div_fast(i1 %pred, float %a, float %b, float %divisor) #0 { ; CHECK: rcp.approx.f32 ; CHECK: mul.f32 ; CHECK: mul.f32 ; CHECK: mul.f32 ; CHECK: selp.f32 %x = fdiv float %a, %divisor %y = fdiv float %b, %divisor %z = fmul float %x, %y %w = select i1 %pred, float %z, float %y ret float %w } ; CHECK-LABEL: repeated_div_fast_sel define float @repeated_div_fast_sel(i1 %pred, float %a, float %b, float %divisor) #0 { ; CHECK: selp.f32 ; CHECK: div.approx.f32 %x = fdiv float %a, %divisor %y = fdiv float %b, %divisor %w = select i1 %pred, float %x, float %y ret float %w } ; CHECK-LABEL: repeated_div_fast_ftz define float @repeated_div_fast_ftz(i1 %pred, float %a, float %b, float %divisor) #0 #1 { ; CHECK: rcp.approx.ftz.f32 ; CHECK: mul.ftz.f32 ; CHECK: mul.ftz.f32 ; CHECK: mul.ftz.f32 ; CHECK: selp.f32 %x = fdiv float %a, %divisor %y = fdiv float %b, %divisor %z = fmul float %x, %y %w = select i1 %pred, float %z, float %y ret float %w } ; CHECK-LABEL: repeated_div_fast_ftz_sel define float @repeated_div_fast_ftz_sel(i1 %pred, float %a, float %b, float %divisor) #0 #1 { ; CHECK: selp.f32 ; CHECK: div.approx.ftz.f32 %x = fdiv float %a, %divisor %y = fdiv float %b, %divisor %w = select i1 %pred, float %x, float %y ret float %w } attributes #0 = { "unsafe-fp-math" = "true" } attributes #1 = { "denormal-fp-math-f32" = "preserve-sign" }