; NOTE: Assertions have been autogenerated by utils/update_test_checks.py UTC_ARGS: --version 5 ; RUN: opt < %s -passes=instsimplify -march=nvptx64 --mcpu=sm_86 --mattr=+ptx72 -S | FileCheck %s ; Check constant-folding for NVVM divide intrinsics with different rounding modes ;############################################################### ;# Div(1.25, 2.0) # ;############################################################### ; Tests division of two normal numbers (1.25 by 2.0) where the result ; is exactly representable. All rounding modes should produce the same result. define double @test_1_25_div_2_rm_d() { ; CHECK-LABEL: define double @test_1_25_div_2_rm_d() { ; CHECK-NEXT: ret double 6.250000e-01 ; %res = call double @llvm.nvvm.div.rm.d(double 1.25, double 2.0) ret double %res } define double @test_1_25_div_2_rn_d() { ; CHECK-LABEL: define double @test_1_25_div_2_rn_d() { ; CHECK-NEXT: ret double 6.250000e-01 ; %res = call double @llvm.nvvm.div.rn.d(double 1.25, double 2.0) ret double %res } define double @test_1_25_div_2_rp_d() { ; CHECK-LABEL: define double @test_1_25_div_2_rp_d() { ; CHECK-NEXT: ret double 6.250000e-01 ; %res = call double @llvm.nvvm.div.rp.d(double 1.25, double 2.0) ret double %res } define double @test_1_25_div_2_rz_d() { ; CHECK-LABEL: define double @test_1_25_div_2_rz_d() { ; CHECK-NEXT: ret double 6.250000e-01 ; %res = call double @llvm.nvvm.div.rz.d(double 1.25, double 2.0) ret double %res } define float @test_1_25_div_2_rm_f() { ; CHECK-LABEL: define float @test_1_25_div_2_rm_f() { ; CHECK-NEXT: ret float 6.250000e-01 ; %res = call float @llvm.nvvm.div.rm.f(float 1.25, float 2.0) ret float %res } define float @test_1_25_div_2_rn_f() { ; CHECK-LABEL: define float @test_1_25_div_2_rn_f() { ; CHECK-NEXT: ret float 6.250000e-01 ; %res = call float @llvm.nvvm.div.rn.f(float 1.25, float 2.0) ret float %res } define float @test_1_25_div_2_rp_f() { ; CHECK-LABEL: define float @test_1_25_div_2_rp_f() { ; CHECK-NEXT: ret float 6.250000e-01 ; %res = call float @llvm.nvvm.div.rp.f(float 1.25, float 2.0) ret float %res } define float @test_1_25_div_2_rz_f() { ; CHECK-LABEL: define float @test_1_25_div_2_rz_f() { ; CHECK-NEXT: ret float 6.250000e-01 ; %res = call float @llvm.nvvm.div.rz.f(float 1.25, float 2.0) ret float %res } define float @test_1_25_div_2_rm_ftz_f() { ; CHECK-LABEL: define float @test_1_25_div_2_rm_ftz_f() { ; CHECK-NEXT: ret float 6.250000e-01 ; %res = call float @llvm.nvvm.div.rm.ftz.f(float 1.25, float 2.0) ret float %res } define float @test_1_25_div_2_rn_ftz_f() { ; CHECK-LABEL: define float @test_1_25_div_2_rn_ftz_f() { ; CHECK-NEXT: ret float 6.250000e-01 ; %res = call float @llvm.nvvm.div.rn.ftz.f(float 1.25, float 2.0) ret float %res } define float @test_1_25_div_2_rp_ftz_f() { ; CHECK-LABEL: define float @test_1_25_div_2_rp_ftz_f() { ; CHECK-NEXT: ret float 6.250000e-01 ; %res = call float @llvm.nvvm.div.rp.ftz.f(float 1.25, float 2.0) ret float %res } define float @test_1_25_div_2_rz_ftz_f() { ; CHECK-LABEL: define float @test_1_25_div_2_rz_ftz_f() { ; CHECK-NEXT: ret float 6.250000e-01 ; %res = call float @llvm.nvvm.div.rz.ftz.f(float 1.25, float 2.0) ret float %res } ;############################################################### ;# Div(Subnormal, 1.0) # ;############################################################### ; Tests division of a subnormal number by 1.0 to verify FTZ behavior. ; For float, we use 2^-149 (smallest subnormal). ; For double, we use 2^-1074 (smallest subnormal). ; Without FTZ, the result should be the subnormal number. ; With FTZ, the result should be 0.0. define double @test_subnorm_div_1_rm_d() { ; CHECK-LABEL: define double @test_subnorm_div_1_rm_d() { ; CHECK-NEXT: ret double 4.940660e-324 ; %res = call double @llvm.nvvm.div.rm.d(double 0x0000000000000001, double 1.0) ret double %res } define double @test_subnorm_div_1_rn_d() { ; CHECK-LABEL: define double @test_subnorm_div_1_rn_d() { ; CHECK-NEXT: ret double 4.940660e-324 ; %res = call double @llvm.nvvm.div.rn.d(double 0x0000000000000001, double 1.0) ret double %res } define double @test_subnorm_div_1_rp_d() { ; CHECK-LABEL: define double @test_subnorm_div_1_rp_d() { ; CHECK-NEXT: ret double 4.940660e-324 ; %res = call double @llvm.nvvm.div.rp.d(double 0x0000000000000001, double 1.0) ret double %res } define double @test_subnorm_div_1_rz_d() { ; CHECK-LABEL: define double @test_subnorm_div_1_rz_d() { ; CHECK-NEXT: ret double 4.940660e-324 ; %res = call double @llvm.nvvm.div.rz.d(double 0x0000000000000001, double 1.0) ret double %res } define float @test_subnorm_div_1_rm_f() { ; CHECK-LABEL: define float @test_subnorm_div_1_rm_f() { ; CHECK-NEXT: ret float 0x36A0000000000000 ; %res = call float @llvm.nvvm.div.rm.f(float 0x36A0000000000000, float 1.0) ret float %res } define float @test_subnorm_div_1_rn_f() { ; CHECK-LABEL: define float @test_subnorm_div_1_rn_f() { ; CHECK-NEXT: ret float 0x36A0000000000000 ; %res = call float @llvm.nvvm.div.rn.f(float 0x36A0000000000000, float 1.0) ret float %res } define float @test_subnorm_div_1_rp_f() { ; CHECK-LABEL: define float @test_subnorm_div_1_rp_f() { ; CHECK-NEXT: ret float 0x36A0000000000000 ; %res = call float @llvm.nvvm.div.rp.f(float 0x36A0000000000000, float 1.0) ret float %res } define float @test_subnorm_div_1_rz_f() { ; CHECK-LABEL: define float @test_subnorm_div_1_rz_f() { ; CHECK-NEXT: ret float 0x36A0000000000000 ; %res = call float @llvm.nvvm.div.rz.f(float 0x36A0000000000000, float 1.0) ret float %res } define float @test_subnorm_div_1_rm_ftz_f() { ; CHECK-LABEL: define float @test_subnorm_div_1_rm_ftz_f() { ; CHECK-NEXT: ret float 0.000000e+00 ; %res = call float @llvm.nvvm.div.rm.ftz.f(float 0x36A0000000000000, float 1.0) ret float %res } define float @test_subnorm_div_1_rn_ftz_f() { ; CHECK-LABEL: define float @test_subnorm_div_1_rn_ftz_f() { ; CHECK-NEXT: ret float 0.000000e+00 ; %res = call float @llvm.nvvm.div.rn.ftz.f(float 0x36A0000000000000, float 1.0) ret float %res } define float @test_subnorm_div_1_rp_ftz_f() { ; CHECK-LABEL: define float @test_subnorm_div_1_rp_ftz_f() { ; CHECK-NEXT: ret float 0.000000e+00 ; %res = call float @llvm.nvvm.div.rp.ftz.f(float 0x36A0000000000000, float 1.0) ret float %res } define float @test_subnorm_div_1_rz_ftz_f() { ; CHECK-LABEL: define float @test_subnorm_div_1_rz_ftz_f() { ; CHECK-NEXT: ret float 0.000000e+00 ; %res = call float @llvm.nvvm.div.rz.ftz.f(float 0x36A0000000000000, float 1.0) ret float %res } ;############################################################### ;# Div(Normal, Normal) -> Subnormal # ;############################################################### ; Tests division of two normal numbers that produces a subnormal result. ; We divide the smallest normal float (2^-126 or 2^-1022 for doubles) by 2 to get 2^-127 (or 2^-1023), ; which is subnormal. This tests the transition from normal to subnormal numbers. define double @test_normal_div_normal_to_subnorm_rm_d() { ; CHECK-LABEL: define double @test_normal_div_normal_to_subnorm_rm_d() { ; CHECK-NEXT: ret double 0x8000000000000 ; %res = call double @llvm.nvvm.div.rm.d(double 0x10000000000000, double 2.0) ret double %res } define double @test_normal_div_normal_to_subnorm_rn_d() { ; CHECK-LABEL: define double @test_normal_div_normal_to_subnorm_rn_d() { ; CHECK-NEXT: ret double 0x8000000000000 ; %res = call double @llvm.nvvm.div.rn.d(double 0x10000000000000, double 2.0) ret double %res } define double @test_normal_div_normal_to_subnorm_rp_d() { ; CHECK-LABEL: define double @test_normal_div_normal_to_subnorm_rp_d() { ; CHECK-NEXT: ret double 0x8000000000000 ; %res = call double @llvm.nvvm.div.rp.d(double 0x10000000000000, double 2.0) ret double %res } define double @test_normal_div_normal_to_subnorm_rz_d() { ; CHECK-LABEL: define double @test_normal_div_normal_to_subnorm_rz_d() { ; CHECK-NEXT: ret double 0x8000000000000 ; %res = call double @llvm.nvvm.div.rz.d(double 0x10000000000000, double 2.0) ret double %res } define float @test_normal_div_normal_to_subnorm_rm_f() { ; CHECK-LABEL: define float @test_normal_div_normal_to_subnorm_rm_f() { ; CHECK-NEXT: ret float 0x3800000000000000 ; %res = call float @llvm.nvvm.div.rm.f(float 0x3810000000000000, float 2.0) ret float %res } define float @test_normal_div_normal_to_subnorm_rn_f() { ; CHECK-LABEL: define float @test_normal_div_normal_to_subnorm_rn_f() { ; CHECK-NEXT: ret float 0x3800000000000000 ; %res = call float @llvm.nvvm.div.rn.f(float 0x3810000000000000, float 2.0) ret float %res } define float @test_normal_div_normal_to_subnorm_rp_f() { ; CHECK-LABEL: define float @test_normal_div_normal_to_subnorm_rp_f() { ; CHECK-NEXT: ret float 0x3800000000000000 ; %res = call float @llvm.nvvm.div.rp.f(float 0x3810000000000000, float 2.0) ret float %res } define float @test_normal_div_normal_to_subnorm_rz_f() { ; CHECK-LABEL: define float @test_normal_div_normal_to_subnorm_rz_f() { ; CHECK-NEXT: ret float 0x3800000000000000 ; %res = call float @llvm.nvvm.div.rz.f(float 0x3810000000000000, float 2.0) ret float %res } define float @test_normal_div_normal_to_subnorm_rm_ftz_f() { ; CHECK-LABEL: define float @test_normal_div_normal_to_subnorm_rm_ftz_f() { ; CHECK-NEXT: ret float 0.000000e+00 ; %res = call float @llvm.nvvm.div.rm.ftz.f(float 0x3810000000000000, float 2.0) ret float %res } define float @test_normal_div_normal_to_subnorm_rn_ftz_f() { ; CHECK-LABEL: define float @test_normal_div_normal_to_subnorm_rn_ftz_f() { ; CHECK-NEXT: ret float 0.000000e+00 ; %res = call float @llvm.nvvm.div.rn.ftz.f(float 0x3810000000000000, float 2.0) ret float %res } define float @test_normal_div_normal_to_subnorm_rp_ftz_f() { ; CHECK-LABEL: define float @test_normal_div_normal_to_subnorm_rp_ftz_f() { ; CHECK-NEXT: ret float 0.000000e+00 ; %res = call float @llvm.nvvm.div.rp.ftz.f(float 0x3810000000000000, float 2.0) ret float %res } define float @test_normal_div_normal_to_subnorm_rz_ftz_f() { ; CHECK-LABEL: define float @test_normal_div_normal_to_subnorm_rz_ftz_f() { ; CHECK-NEXT: ret float 0.000000e+00 ; %res = call float @llvm.nvvm.div.rz.ftz.f(float 0x3810000000000000, float 2.0) ret float %res } ;############################################################### ;# Div( 4/3 + epsilon , 4/3 - epsilon) # ;############################################################### ; Tests division of numbers just above and just below 4/3. ; The result falls between 1.0 and 1.0 + 2^-23 ; - RZ, RM round to 1.0 (rounding towards zero/down) ; - RN, RP rounds to 1.0 + 2^-23 (rounding towards nearest/up) define float @test_div_just_above_1_rm_f() { ; CHECK-LABEL: define float @test_div_just_above_1_rm_f() { ; CHECK-NEXT: ret float 1.000000e+00 ; %res = call float @llvm.nvvm.div.rm.f(float 0x3FF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_above_1_rn_f() { ; CHECK-LABEL: define float @test_div_just_above_1_rn_f() { ; CHECK-NEXT: ret float 0x3FF0000020000000 ; %res = call float @llvm.nvvm.div.rn.f(float 0x3FF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_above_1_rp_f() { ; CHECK-LABEL: define float @test_div_just_above_1_rp_f() { ; CHECK-NEXT: ret float 0x3FF0000020000000 ; %res = call float @llvm.nvvm.div.rp.f(float 0x3FF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_above_1_rz_f() { ; CHECK-LABEL: define float @test_div_just_above_1_rz_f() { ; CHECK-NEXT: ret float 1.000000e+00 ; %res = call float @llvm.nvvm.div.rz.f(float 0x3FF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_above_1_rm_ftz_f() { ; CHECK-LABEL: define float @test_div_just_above_1_rm_ftz_f() { ; CHECK-NEXT: ret float 1.000000e+00 ; %res = call float @llvm.nvvm.div.rm.ftz.f(float 0x3FF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_above_1_rn_ftz_f() { ; CHECK-LABEL: define float @test_div_just_above_1_rn_ftz_f() { ; CHECK-NEXT: ret float 0x3FF0000020000000 ; %res = call float @llvm.nvvm.div.rn.ftz.f(float 0x3FF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_above_1_rp_ftz_f() { ; CHECK-LABEL: define float @test_div_just_above_1_rp_ftz_f() { ; CHECK-NEXT: ret float 0x3FF0000020000000 ; %res = call float @llvm.nvvm.div.rp.ftz.f(float 0x3FF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_above_1_rz_ftz_f() { ; CHECK-LABEL: define float @test_div_just_above_1_rz_ftz_f() { ; CHECK-NEXT: ret float 1.000000e+00 ; %res = call float @llvm.nvvm.div.rz.ftz.f(float 0x3FF5555560000000, float 0x3FF5555540000000) ret float %res } ;############################################################### ;# Div(4/3 + epsilon / 4/3 - epsilon) # ;############################################################### ; Tests division of numbers just above and just below 4/3. ; The result falls between 1.0 and 1.0 + 2^-52 ; - RZ, RM round to 1.0 (rounding towards zero/down) ; - RN, RP rounds to 1.0 + 2^-23 (rounding towards nearest/up) define double @test_div_just_above_1_rm_d() { ; CHECK-LABEL: define double @test_div_just_above_1_rm_d() { ; CHECK-NEXT: ret double 1.000000e+00 ; %res = call double @llvm.nvvm.div.rm.d(double 0x3FF5555555555555, double 0x3FF5555555555554) ret double %res } define double @test_div_just_above_1_rn_d() { ; CHECK-LABEL: define double @test_div_just_above_1_rn_d() { ; CHECK-NEXT: ret double 0x3FF0000000000001 ; %res = call double @llvm.nvvm.div.rn.d(double 0x3FF5555555555555, double 0x3FF5555555555554) ret double %res } define double @test_div_just_above_1_rp_d() { ; CHECK-LABEL: define double @test_div_just_above_1_rp_d() { ; CHECK-NEXT: ret double 0x3FF0000000000001 ; %res = call double @llvm.nvvm.div.rp.d(double 0x3FF5555555555555, double 0x3FF5555555555554) ret double %res } define double @test_div_just_above_1_rz_d() { ; CHECK-LABEL: define double @test_div_just_above_1_rz_d() { ; CHECK-NEXT: ret double 1.000000e+00 ; %res = call double @llvm.nvvm.div.rz.d(double 0x3FF5555555555555, double 0x3FF5555555555554) ret double %res } ;############################################################### ;# Div( -(4/3 + epsilon), 4/3 - epsilon ) # ;############################################################### ; Tests division of numbers just below -4/3 and just below 4/3. ; The result falls between -1.0 and -1.0 - 2^-52 ; - RZ, RP round to -1.0 (rounding towards zero/up) ; - RN, RM rounds to -1.0 - 2^-52 (rounding towards nearest/down) define float @test_div_just_below_negative_1_rm_f() { ; CHECK-LABEL: define float @test_div_just_below_negative_1_rm_f() { ; CHECK-NEXT: ret float 0xBFF0000020000000 ; %res = call float @llvm.nvvm.div.rm.f(float 0xBFF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_below_negative_1_rn_f() { ; CHECK-LABEL: define float @test_div_just_below_negative_1_rn_f() { ; CHECK-NEXT: ret float 0xBFF0000020000000 ; %res = call float @llvm.nvvm.div.rn.f(float 0xBFF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_below_negative_1_rp_f() { ; CHECK-LABEL: define float @test_div_just_below_negative_1_rp_f() { ; CHECK-NEXT: ret float -1.000000e+00 ; %res = call float @llvm.nvvm.div.rp.f(float 0xBFF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_below_negative_1_rz_f() { ; CHECK-LABEL: define float @test_div_just_below_negative_1_rz_f() { ; CHECK-NEXT: ret float -1.000000e+00 ; %res = call float @llvm.nvvm.div.rz.f(float 0xBFF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_below_negative_1_rm_ftz_f() { ; CHECK-LABEL: define float @test_div_just_below_negative_1_rm_ftz_f() { ; CHECK-NEXT: ret float 0xBFF0000020000000 ; %res = call float @llvm.nvvm.div.rm.ftz.f(float 0xBFF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_below_negative_1_rn_ftz_f() { ; CHECK-LABEL: define float @test_div_just_below_negative_1_rn_ftz_f() { ; CHECK-NEXT: ret float 0xBFF0000020000000 ; %res = call float @llvm.nvvm.div.rn.ftz.f(float 0xBFF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_below_negative_1_rp_ftz_f() { ; CHECK-LABEL: define float @test_div_just_below_negative_1_rp_ftz_f() { ; CHECK-NEXT: ret float -1.000000e+00 ; %res = call float @llvm.nvvm.div.rp.ftz.f(float 0xBFF5555560000000, float 0x3FF5555540000000) ret float %res } define float @test_div_just_below_negative_1_rz_ftz_f() { ; CHECK-LABEL: define float @test_div_just_below_negative_1_rz_ftz_f() { ; CHECK-NEXT: ret float -1.000000e+00 ; %res = call float @llvm.nvvm.div.rz.ftz.f(float 0xBFF5555560000000, float 0x3FF5555540000000) ret float %res } ;############################################################### ;# Div( -(4/3 + epsilon), 4/3 - epsilon ) # ;############################################################### ; Tests division of numbers just below -4/3 and just below 4/3. ; The result falls between -1.0 and -1.0 - 2^-52 ; - RZ, RP round to -1.0 (rounding towards zero/up) ; - RN, RM rounds to -1.0 - 2^-52 (rounding towards nearest/down) define double @test_div_just_below_negative_1_rm_d() { ; CHECK-LABEL: define double @test_div_just_below_negative_1_rm_d() { ; CHECK-NEXT: ret double 0xBFF0000000000001 ; %res = call double @llvm.nvvm.div.rm.d(double 0xBFF5555555555555, double 0x3FF5555555555554) ret double %res } define double @test_div_just_below_negative_1_rn_d() { ; CHECK-LABEL: define double @test_div_just_below_negative_1_rn_d() { ; CHECK-NEXT: ret double 0xBFF0000000000001 ; %res = call double @llvm.nvvm.div.rn.d(double 0xBFF5555555555555, double 0x3FF5555555555554) ret double %res } define double @test_div_just_below_negative_1_rp_d() { ; CHECK-LABEL: define double @test_div_just_below_negative_1_rp_d() { ; CHECK-NEXT: ret double -1.000000e+00 ; %res = call double @llvm.nvvm.div.rp.d(double 0xBFF5555555555555, double 0x3FF5555555555554) ret double %res } define double @test_div_just_below_negative_1_rz_d() { ; CHECK-LABEL: define double @test_div_just_below_negative_1_rz_d() { ; CHECK-NEXT: ret double -1.000000e+00 ; %res = call double @llvm.nvvm.div.rz.d(double 0xBFF5555555555555, double 0x3FF5555555555554) ret double %res } ;############################################################### ;# Div(~4/3 , ~4/3 + epsilon) # ;############################################################### ; Tests division of ~4/3 by a value just over 4/3 ; The exact result falls between 1.0 - 2^23 ( = 0x3FEFFFFFC0000000) ; and 1.0 - (2^23 + 2^24) ( = 0x3FEFFFFFA0000000). ; - RN, RZ, RM round to 1.0 - 2^-23 - 2^-24 (rounding towards nearest/zero/down) ; - RP rounds to 1.0 - 2^-23 (rounding up) define float @test_div_just_below_1_rm_f() { ; CHECK-LABEL: define float @test_div_just_below_1_rm_f() { ; CHECK-NEXT: ret float 0x3FEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rm.f(float 0x3FF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_below_1_rn_f() { ; CHECK-LABEL: define float @test_div_just_below_1_rn_f() { ; CHECK-NEXT: ret float 0x3FEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rn.f(float 0x3FF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_below_1_rp_f() { ; CHECK-LABEL: define float @test_div_just_below_1_rp_f() { ; CHECK-NEXT: ret float 0x3FEFFFFFC0000000 ; %res = call float @llvm.nvvm.div.rp.f(float 0x3FF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_below_1_rz_f() { ; CHECK-LABEL: define float @test_div_just_below_1_rz_f() { ; CHECK-NEXT: ret float 0x3FEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rz.f(float 0x3FF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_below_1_rm_ftz_f() { ; CHECK-LABEL: define float @test_div_just_below_1_rm_ftz_f() { ; CHECK-NEXT: ret float 0x3FEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rm.ftz.f(float 0x3FF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_below_1_rn_ftz_f() { ; CHECK-LABEL: define float @test_div_just_below_1_rn_ftz_f() { ; CHECK-NEXT: ret float 0x3FEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rn.ftz.f(float 0x3FF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_below_1_rp_ftz_f() { ; CHECK-LABEL: define float @test_div_just_below_1_rp_ftz_f() { ; CHECK-NEXT: ret float 0x3FEFFFFFC0000000 ; %res = call float @llvm.nvvm.div.rp.ftz.f(float 0x3FF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_below_1_rz_ftz_f() { ; CHECK-LABEL: define float @test_div_just_below_1_rz_ftz_f() { ; CHECK-NEXT: ret float 0x3FEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rz.ftz.f(float 0x3FF5555540000000, float 0x3FF5555580000000) ret float %res } ;############################################################### ;# Div(~4/3 , ~4/3 + epsilon) # ;############################################################### ; Tests division of ~4/3 by a value just over 4/3 ; The exact result falls between 1.0 - 2^-51 - 2^-52 ( = 0x3FEFFFFFFFFFFFFA) ; and 1.0 - 2^-51 - 2^-53 ( = 0x3FEFFFFFFFFFFFFB). ; - RN, RZ, RM round to 1.0 - 2^-51 - 2^-52 (rounding towards nearest/zero/down) ; - RP rounds to 1.0 - 2^-51 - 2^-53 (rounding up) define double @test_div_just_below_1_rm_d() { ; CHECK-LABEL: define double @test_div_just_below_1_rm_d() { ; CHECK-NEXT: ret double 0x3FEFFFFFFFFFFFFA ; %res = call double @llvm.nvvm.div.rm.d(double 0x3FF5555555555554, double 0x3FF5555555555558) ret double %res } define double @test_div_just_below_1_rn_d() { ; CHECK-LABEL: define double @test_div_just_below_1_rn_d() { ; CHECK-NEXT: ret double 0x3FEFFFFFFFFFFFFA ; %res = call double @llvm.nvvm.div.rn.d(double 0x3FF5555555555554, double 0x3FF5555555555558) ret double %res } define double @test_div_just_below_1_rp_d() { ; CHECK-LABEL: define double @test_div_just_below_1_rp_d() { ; CHECK-NEXT: ret double 0x3FEFFFFFFFFFFFFB ; %res = call double @llvm.nvvm.div.rp.d(double 0x3FF5555555555554, double 0x3FF5555555555558) ret double %res } define double @test_div_just_below_1_rz_d() { ; CHECK-LABEL: define double @test_div_just_below_1_rz_d() { ; CHECK-NEXT: ret double 0x3FEFFFFFFFFFFFFA ; %res = call double @llvm.nvvm.div.rz.d(double 0x3FF5555555555554, double 0x3FF5555555555558) ret double %res } ;############################################################### ;# Div(-4/3, ~4/3 + epsilon) # ;############################################################### ; Tests division of ~4/3 by a value just over 4/3 ; The exact result falls between 1.0 - 2^23 ( = 0x3FEFFFFFC0000000) ; and 1.0 - (2^23 + 2^24) ( = 0x3FEFFFFFA0000000). ; - RN, RZ, RP round to -1.0 + 2^-23 + + 2^-24 (rounding towards nearest/zero/up) ; - RM rounds to -1.0 + 2^-23 (rounding up) define float @test_div_just_above_negative_1_rm_f() { ; CHECK-LABEL: define float @test_div_just_above_negative_1_rm_f() { ; CHECK-NEXT: ret float 0xBFEFFFFFC0000000 ; %res = call float @llvm.nvvm.div.rm.f(float 0xBFF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_above_negative_1_rn_f() { ; CHECK-LABEL: define float @test_div_just_above_negative_1_rn_f() { ; CHECK-NEXT: ret float 0xBFEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rn.f(float 0xBFF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_above_negative_1_rp_f() { ; CHECK-LABEL: define float @test_div_just_above_negative_1_rp_f() { ; CHECK-NEXT: ret float 0xBFEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rp.f(float 0xBFF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_above_negative_1_rz_f() { ; CHECK-LABEL: define float @test_div_just_above_negative_1_rz_f() { ; CHECK-NEXT: ret float 0xBFEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rz.f(float 0xBFF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_above_negative_1_rm_ftz_f() { ; CHECK-LABEL: define float @test_div_just_above_negative_1_rm_ftz_f() { ; CHECK-NEXT: ret float 0xBFEFFFFFC0000000 ; %res = call float @llvm.nvvm.div.rm.ftz.f(float 0xBFF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_above_negative_1_rn_ftz_f() { ; CHECK-LABEL: define float @test_div_just_above_negative_1_rn_ftz_f() { ; CHECK-NEXT: ret float 0xBFEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rn.ftz.f(float 0xBFF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_above_negative_1_rp_ftz_f() { ; CHECK-LABEL: define float @test_div_just_above_negative_1_rp_ftz_f() { ; CHECK-NEXT: ret float 0xBFEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rp.ftz.f(float 0xBFF5555540000000, float 0x3FF5555580000000) ret float %res } define float @test_div_just_above_negative_1_rz_ftz_f() { ; CHECK-LABEL: define float @test_div_just_above_negative_1_rz_ftz_f() { ; CHECK-NEXT: ret float 0xBFEFFFFFA0000000 ; %res = call float @llvm.nvvm.div.rz.ftz.f(float 0xBFF5555540000000, float 0x3FF5555580000000) ret float %res } ;############################################################### ;# Div(~4/3 , ~4/3 + epsilon) # ;############################################################### ; Tests division of ~4/3 by a value just over 4/3 ; The exact result falls between -1.0 + 2^-51 + 2^-52 ( = 0x3FEFFFFFFFFFFFFA) ; and -1.0 + 2^-51 + 2^-53 ( = 0x3FEFFFFFFFFFFFFB). ; - RN, RZ, RP round to -1.0 + 2^-51 + 2^-52 (rounding towards nearest/zero/up) ; - RM rounds to -1.0 + 2^-51 + 2^-53 (rounding down) define double @test_div_just_above_negative_1_rm_d() { ; CHECK-LABEL: define double @test_div_just_above_negative_1_rm_d() { ; CHECK-NEXT: ret double 0xBFEFFFFFFFFFFFFB ; %res = call double @llvm.nvvm.div.rm.d(double 0xBFF5555555555554, double 0x3FF5555555555558) ret double %res } define double @test_div_just_above_negative_1_rn_d() { ; CHECK-LABEL: define double @test_div_just_above_negative_1_rn_d() { ; CHECK-NEXT: ret double 0xBFEFFFFFFFFFFFFA ; %res = call double @llvm.nvvm.div.rn.d(double 0xBFF5555555555554, double 0x3FF5555555555558) ret double %res } define double @test_div_just_above_negative_1_rp_d() { ; CHECK-LABEL: define double @test_div_just_above_negative_1_rp_d() { ; CHECK-NEXT: ret double 0xBFEFFFFFFFFFFFFA ; %res = call double @llvm.nvvm.div.rp.d(double 0xBFF5555555555554, double 0x3FF5555555555558) ret double %res } define double @test_div_just_above_negative_1_rz_d() { ; CHECK-LABEL: define double @test_div_just_above_negative_1_rz_d() { ; CHECK-NEXT: ret double 0xBFEFFFFFFFFFFFFA ; %res = call double @llvm.nvvm.div.rz.d(double 0xBFF5555555555554, double 0x3FF5555555555558) ret double %res } ;############################################################### ;# Div(NaN, NaN) # ;############################################################### ; Tests division of NaN by NaN to verify that constant folding is not performed ; when the result would be NaN. define float @test_nan_div_nan_rm_f() { ; CHECK-LABEL: define float @test_nan_div_nan_rm_f() { ; CHECK-NEXT: [[RES:%.*]] = call float @llvm.nvvm.div.rm.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ; CHECK-NEXT: ret float [[RES]] ; %res = call float @llvm.nvvm.div.rm.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ret float %res } define float @test_nan_div_nan_rn_f() { ; CHECK-LABEL: define float @test_nan_div_nan_rn_f() { ; CHECK-NEXT: [[RES:%.*]] = call float @llvm.nvvm.div.rn.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ; CHECK-NEXT: ret float [[RES]] ; %res = call float @llvm.nvvm.div.rn.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ret float %res } define float @test_nan_div_nan_rp_f() { ; CHECK-LABEL: define float @test_nan_div_nan_rp_f() { ; CHECK-NEXT: [[RES:%.*]] = call float @llvm.nvvm.div.rp.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ; CHECK-NEXT: ret float [[RES]] ; %res = call float @llvm.nvvm.div.rp.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ret float %res } define float @test_nan_div_nan_rz_f() { ; CHECK-LABEL: define float @test_nan_div_nan_rz_f() { ; CHECK-NEXT: [[RES:%.*]] = call float @llvm.nvvm.div.rz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ; CHECK-NEXT: ret float [[RES]] ; %res = call float @llvm.nvvm.div.rz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ret float %res } define float @test_nan_div_nan_rm_ftz_f() { ; CHECK-LABEL: define float @test_nan_div_nan_rm_ftz_f() { ; CHECK-NEXT: [[RES:%.*]] = call float @llvm.nvvm.div.rm.ftz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ; CHECK-NEXT: ret float [[RES]] ; %res = call float @llvm.nvvm.div.rm.ftz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ret float %res } define float @test_nan_div_nan_rn_ftz_f() { ; CHECK-LABEL: define float @test_nan_div_nan_rn_ftz_f() { ; CHECK-NEXT: [[RES:%.*]] = call float @llvm.nvvm.div.rn.ftz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ; CHECK-NEXT: ret float [[RES]] ; %res = call float @llvm.nvvm.div.rn.ftz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ret float %res } define float @test_nan_div_nan_rp_ftz_f() { ; CHECK-LABEL: define float @test_nan_div_nan_rp_ftz_f() { ; CHECK-NEXT: [[RES:%.*]] = call float @llvm.nvvm.div.rp.ftz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ; CHECK-NEXT: ret float [[RES]] ; %res = call float @llvm.nvvm.div.rp.ftz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ret float %res } define float @test_nan_div_nan_rz_ftz_f() { ; CHECK-LABEL: define float @test_nan_div_nan_rz_ftz_f() { ; CHECK-NEXT: [[RES:%.*]] = call float @llvm.nvvm.div.rz.ftz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ; CHECK-NEXT: ret float [[RES]] ; %res = call float @llvm.nvvm.div.rz.ftz.f(float 0x7FFFFFFF00000000, float 0x7FFFFFFF00000000) ret float %res } define double @test_nan_div_nan_rm_d() { ; CHECK-LABEL: define double @test_nan_div_nan_rm_d() { ; CHECK-NEXT: [[RES:%.*]] = call double @llvm.nvvm.div.rm.d(double 0x7FFFFFFFFFFFFFFF, double 0x7FFFFFFFFFFFFFFF) ; CHECK-NEXT: ret double [[RES]] ; %res = call double @llvm.nvvm.div.rm.d(double 0x7FFFFFFFFFFFFFFF, double 0x7FFFFFFFFFFFFFFF) ret double %res } define double @test_nan_div_nan_rn_d() { ; CHECK-LABEL: define double @test_nan_div_nan_rn_d() { ; CHECK-NEXT: [[RES:%.*]] = call double @llvm.nvvm.div.rn.d(double 0x7FFFFFFFFFFFFFFF, double 0x7FFFFFFFFFFFFFFF) ; CHECK-NEXT: ret double [[RES]] ; %res = call double @llvm.nvvm.div.rn.d(double 0x7FFFFFFFFFFFFFFF, double 0x7FFFFFFFFFFFFFFF) ret double %res } define double @test_nan_div_nan_rp_d() { ; CHECK-LABEL: define double @test_nan_div_nan_rp_d() { ; CHECK-NEXT: [[RES:%.*]] = call double @llvm.nvvm.div.rp.d(double 0x7FFFFFFFFFFFFFFF, double 0x7FFFFFFFFFFFFFFF) ; CHECK-NEXT: ret double [[RES]] ; %res = call double @llvm.nvvm.div.rp.d(double 0x7FFFFFFFFFFFFFFF, double 0x7FFFFFFFFFFFFFFF) ret double %res } define double @test_nan_div_nan_rz_d() { ; CHECK-LABEL: define double @test_nan_div_nan_rz_d() { ; CHECK-NEXT: [[RES:%.*]] = call double @llvm.nvvm.div.rz.d(double 0x7FFFFFFFFFFFFFFF, double 0x7FFFFFFFFFFFFFFF) ; CHECK-NEXT: ret double [[RES]] ; %res = call double @llvm.nvvm.div.rz.d(double 0x7FFFFFFFFFFFFFFF, double 0x7FFFFFFFFFFFFFFF) ret double %res }